DIGIMAT AUTONOMOUS LEARNING PLATFORM

Metallurgy and Material Sciences (3,142 Video Lectures)

Link NPTEL Course Name NPTEL Lecture Title
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 1 - Module 1 : Lecture 1 - Solution models
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 2 - Module 1 : Lecture 2 - Summary of solution models
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 3 - Module 1 : Lecture 3 - G vs X diagrams
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 4 - Module 1 : Lecture 4 - Phase diagrams
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 5 - Module 1 : Lecture 5 - Bond breaking model
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 6 - Module 2 : Lecture 6 - Chemical potential
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 7 - Module 1 : Tutorial 1
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 8 - Module 1 : Tutorial 2
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 9 - Module 1 : Tutorial 3
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 10 - Module 1 : Tutorial 4
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 11 - Module 1 : Tutorial 5
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 12 - Module 2 : Tutorial 6
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 13 - Module 2 : Lecture 7 - Diffusion and chemical potential
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 14 - Module 2 : Lecture 8 - Fick's law
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 15 - Module 2 : Lecture 9 - Failure of classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 16 - Module 2 : Lecture 10 - Some references
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 17 - Module 3 : Lecture 11 - Spinodal decomposition - some history
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 18 - Module 3 : Lecture 12 - Spinodal decomposition
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 19 - Module 3 : Lecture 13 - Stability
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 20 - Module 3 : Lecture 14 - Thermodynamic property : composition dependence
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 21 - Module 3 : Lecture 15 - Regions of stability
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 22 - Module 3 : Lecture 16 - Understanding spinodal region
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 23 - Module 2 : Tutorial 7
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 24 - Module 4 : Lecture 17 - Solution to classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 25 - Module 4 : Lecture 18 - Diffusion and mobility - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 26 - Module 4 : Lecture 19 - Diffusion and mobility - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 27 - Module 4 : Lecture 20 - Failure of classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 28 - Module 4 : Lecture 21 - Non-classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 29 - Module 5 : Lecture 22 - GNU Octave : Introduction
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 30 - Module 5 : Lecture 23 - GNU Octave : interactive mode
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 31 - Module 5 : Lecture 24 - GNU Octave : script mode
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 32 - Module 6 : Lecture 25 - Ideal solution using octave
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 33 - Module 6 : Lecture 26 - Regular solution using octave
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 34 - Module 6 : Lecture 27 - Constructing phase diagram
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 35 - Module 6 : Lecture 28 - Plotting spinodal
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 36 - Module 7 : Lecture 29 - Non-dimensionalisation of diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 37 - Module 7 : Lecture 30 - Diffusion and Fourier law of heat conduction
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 38 - Module 8 : Lecture 31 - Diffusion equation : Analytical solution - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 39 - Module 8 : Lecture 32 - Diffusion equation : Analytical solution - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 40 - Module 8 : Lecture 33 - Diffusion equation : Error function solution - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 41 - Module 8 : Lecture 34 - Diffusion equation: Error function solution - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 42 - Module 9 : Lecture 35 - Diffusion equation : finite difference method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 43 - Module 9 : Lecture 36 - Diffusion equation : zero flux BC and explicit method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 44 - Module 9 : Lecture 37 - Diffusion equation : zero flux BC and implicit method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 45 - Module 9 : Lecture 38 - Diffusion equation : imposed concentration BC and explicit/implicit methods
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 46 - Module 10 : Lecture 39 - Periodic boundary conditions (PBC)
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 47 - Module 10 : Lecture 40 - Expicit method with PBC
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 48 - Module 10 : Lecture 41 - Spectral Techniques - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 49 - Module 10 : Lecture 42 - Spectral Techniques - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 50 - Module 10 : Lecture 43 - Implicit spectral method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 51 - Module 11 : Lecture 44 - Scalars, vectors and tensors
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 52 - Module 11 : Lecture 45 - Coordinate transformation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 53 - Module 11 : Lecture 46 - Transformation laws
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 54 - Module 11 : Lecture 47 - II rank tensors and Neumann principle
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 55 - Module 12 : Lecture 48 - Group theory
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 56 - Module 12 : Lecture 49 - Crystal: symmetry elements - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 57 - Module 12 : Lecture 50 - Crystal: symmetry elements - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 58 - Module 12 : Lecture 51 - Understanding Neumann's principle
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 59 - Module 12 : Lecture 52 - Representation quadric
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 60 - Module 13 : Lecture 53 - Variational calculus
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 61 - Module 13 : Lecture 54 - Optimization of functionals - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 62 - Module 13 : Lecture 55 - Optimization of functionals - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 63 - Module 13 : Lecture 56 - Variational derivative
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 64 - Module 13 : Lecture 57 - Free energy functional
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 65 - Module 14 : Lecture 58 - Derivation of Cahn-Hilliard (CH) equation - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 66 - Module 14 : Lecture 59 - Derivation of Cahn-Hilliard (CH) equation - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 67 - Module 14 : Lecture 60 - Free energy versus concentration curves
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 68 - Module 14 : Lecture 61 - Diffusion equation versus CH
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 69 - Module 15 : Lecture 62 - Numerical solution of CH: finite difference
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 70 - Module 15 : Lecture 63 - Numerical solution of CH: spectral method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 71 - Module 16 : Lecture 64 - Interfacial energy in CH
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 72 - Module 16 : Lecture 65 - CH: analytical solution
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 73 - Module 16 : Lecture 66 - Interfacial energy in CH: analytical calculation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 74 - Module 16 : Lecture 67 - Interfacial energy: numerical versus analytical values
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 75 - Module 17 : Lecture 68 - Order-disorder transition and Allen-Cahn equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 76 - Module 17 : Lecture 69 - AC: numerical solution
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 77 - Module 18 : Lecture 70 - Spinodal decomposition in 2D
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 78 - Module 18 : Lecture 71 - Order-disorder transformation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 79 - Module 18 : Lecture 72 - Gibbs Thomson effect
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 80 - Module 18 : Lecture 73 - Grain growth
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 81 - Module 19 : Lecture 74 - Precipitate growth - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 82 - Module 19 : Lecture 75 - Precipitate growth - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 83 - Module 20 : Lecture 76 - Grain growth: Fan-Chen model - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 84 - Module 20 : Lecture 77 - Grain growth: Fan-Chen model - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 85 - Module 21 : Lecture 78 - Grain boundary grooving - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 86 - Module 21 : Lecture 79 - Grain boundary grooving - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 87 - Module 22 : Lecture 80 - Overview of phase field modelling
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 1 - Descriptive Statistics - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 2 - Descriptive Statistics - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 3 - Probability and Distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 4 - Random variable and Expectation - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 5 - Random variable and Expectation - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 6 - Random variable and Expectation - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 7 - Random variable and Expectation - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 8 - Module: Introduction to R
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 9 - R:Demos and getting help
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 10 - R as calculator and plotter: Diffusivity, scaled temperatures
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 11 - R as calculator and plotter: Diffraction, configurational entropy
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 12 - Data in tabular form: Properties of elements
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 13 - Tabular data in R: alternate methodology
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 14 - Dataframe in R: Properties of elements
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 15 - R libraries for plotting
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 16 - Importing and plotting data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 17 - Property charts: Importing and plotting data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 18 - Introduction to R: Summary of the module
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 19 - Descriptive statistics
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 20 - Presenting experimental results: Data on conductivity of ETP copper
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 21 - Property based reports, errors, significant digits
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 22 - Dealing with distributions: Grain size data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 23 - Grain size data: Property and rank based reports
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 24 - Case study: Grain size in a two phase steel
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 25 - Grain size in a two phase steel: Descriptive statistics
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 26 - Presenting experimental results: data with error bars
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 27 - Errors and their propagation
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 28 - Fitting experimental data to distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 29 - Combining uncertainties
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 30 - Summary:Descriptive statistics
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 31 - Special Random Variables - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 32 - Special Random Variables - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 33 - Special Random Variables - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 34 - Special Random Variables - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 35 - Special Random Variables - V
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 36 - Probabilty Plots
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 37 - Probability distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 38 - Properties of probability distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 39 - Bernoulli trials and binomial distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 40 - Atom probe technique and negative binomial distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 41 - Atom probe and hypergeometric distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 42 - Atom probe: analysis of error
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 43 - Nucleation and Poisson distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 44 - Normal distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 45 - Normal distribution and error function
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 46 - Probability scale
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 47 - Sampling Distribution - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 48 - Sampling Distribution - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 49 - Sampling Distribution - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 50 - Parameter Estimation - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 51 - Parameter Estimator - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 52 - Parameter Estimator - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 53 - Parameter Estimator - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 54 - Bayesian Estimation
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 55 - Log normal distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 56 - Lorentz/Cauchy distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 57 - Lifetime and exponential distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 58 - Distributions from statistical mechanics
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 59 - Uniform distribution and summary of probability distributions
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 60 - Data processing: Introduction
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 61 - Distribution function of a data series
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 62 - Estimating mean and mean-square-deviation of data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 63 - Data with unequal weights
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 64 - Robust estimates
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 65 - From data to underlying distribution
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 66 - Bootstrap method
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 67 - Summary:Data processing
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 68 - Hypothesis Testing - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 69 - Hypothesis Testing - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 70 - Hypothesis Testing - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 71 - Hypothesis Testing - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 72 - Hypothesis Testing - V
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 73 - Hypothesis Testing - VI
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 74 - Graphical handling of data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 75 - Fitting and graphical handling of data: Introduction
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 76 - Data transformable to linear
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 77 - Data of known functional form
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 78 - Calibration,Fitting, Hypotheses testing
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 79 - Analysis of variance
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 80 - Summary:Fittng and graphical handling of data
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 81 - Regression Analysis - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 82 - Regression Analysis - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 83 - Regression Analysis - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 84 - Regression Analysis - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 85 - Analysis of Variance - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 86 - Analysis of Variance - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 87 - Design of Experiment - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 88 - Design of Experiment - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 89 - Design of Experiment - III
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 90 - Design of Experiment - IV
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 91 - Summary of the course
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 92 - Case studies: Introduction
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 93 - Case study 1: Data smoothing - I
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 94 - Case study 1: Data smoothing - II
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 95 - Case study 2: Error analysis
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 96 - Case study 3: Calibration
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 97 - Case study 4: Design of experiment
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 98 - Case study 5: Hypothesis testing
Link NOC:Dealing with Materials Data: Collection, Analysis and Interpretation Lecture 99 - Course summary
Link NOC:Aqueous Corrosion and its Control Lecture 1 - Introduction to the course and corrosion implications
Link NOC:Aqueous Corrosion and its Control Lecture 2 - Can we predict if a metal corrodes? - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 3 - Can we predict if a metal corrodes? - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 4 - Can we calculate the rate of corrosion: Electrochemical kinetics - Tafel relation?
Link NOC:Aqueous Corrosion and its Control Lecture 5 - Can we calculate the rate of corrosion: Electrochemical kinetics - diffusion and mixed potential theory?
Link NOC:Aqueous Corrosion and its Control Lecture 6 - Can we calculate the corrosion rate of metals: Mixed potential theory and passivity?
Link NOC:Aqueous Corrosion and its Control Lecture 7 - Passivity (Continued...)
Link NOC:Aqueous Corrosion and its Control Lecture 8 - DC polarisation experiments and their relation to mixed potential theory/Evans diagram
Link NOC:Aqueous Corrosion and its Control Lecture 9 - Pourbaix diagram and electrochemical corrosion
Link NOC:Aqueous Corrosion and its Control Lecture 10 - Forms of corrosion: Uniform v/s localised corrosion
Link NOC:Aqueous Corrosion and its Control Lecture 11 - Forms of corrosion: Factors affecting uniform corrosion
Link NOC:Aqueous Corrosion and its Control Lecture 12 - Forms of corrosion: Preventive measures for uniform corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 13 - Forms of corrosion: Preventive measures for uniform corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 14 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 15 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 16 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part III
Link NOC:Aqueous Corrosion and its Control Lecture 17 - Forms of corrosion: Crevice corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 18 - Forms of corrosion: Crevice corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 19 - Forms of corrosion: Pitting corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 20 - Forms of corrosion: Pitting corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 21 - Forms of corrosion: Intergranular corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 22 - Forms of corrosion: Intergranular corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 23 - Forms of corrosion: Intergranular corrosion - Part III
Link NOC:Aqueous Corrosion and its Control Lecture 24 - Forms of corrosion: Intergranular corrosion - Part IV
Link NOC:Aqueous Corrosion and its Control Lecture 25 - Forms of corrosion: Selective leaching or dealloying
Link NOC:Aqueous Corrosion and its Control Lecture 26 - Forms of corrosion: Flow assisted corrosion and erosion corrosion - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 27 - Forms of corrosion: Erosion corrosion - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 28 - Forms of corrosion: Fretting corrosion
Link NOC:Aqueous Corrosion and its Control Lecture 29 - Forms of corrosion: Stress corrosion cracking - Part I
Link NOC:Aqueous Corrosion and its Control Lecture 30 - Forms of corrosion: Stress corrosion cracking - Part II
Link NOC:Aqueous Corrosion and its Control Lecture 31 - Forms of corrosion: Stress corrosion cracking - Part III
Link NOC:Aqueous Corrosion and its Control Lecture 32 - Forms of corrosion: Hydrogen damage
Link NOC:Aqueous Corrosion and its Control Lecture 33 - Forms of corrosion: Microbial corrosion
Link NOC:Aqueous Corrosion and its Control Lecture 34 - Effective corrosion management
Link NOC:Cathodic Protection Engineering Lecture 1 - Introduction to the course and understanding corrosion
Link NOC:Cathodic Protection Engineering Lecture 2 - External corrosion of pipelines
Link NOC:Cathodic Protection Engineering Lecture 3 - Electrochemical principles
Link NOC:Cathodic Protection Engineering Lecture 4 - Criteria
Link NOC:Cathodic Protection Engineering Lecture 5 - Assessment of pipeline condition through surveys - Part I
Link NOC:Cathodic Protection Engineering Lecture 6 - Assessment of pipeline condition through surveys - Part II
Link NOC:Cathodic Protection Engineering Lecture 7 - Anode ground bed for cathodic protection
Link NOC:Cathodic Protection Engineering Lecture 8 - Perspectives in storage tanks and off-shore structures
Link NOC:Cathodic Protection Engineering Lecture 9 - Anodes
Link NOC:Cathodic Protection Engineering Lecture 10 - Worked out examples
Link NOC:Cathodic Protection Engineering Lecture 11 - Stray current corrosion and its control
Link NOC:Cathodic Protection Engineering Lecture 12 - Coatings and rectifier selection
Link NOC:Cathodic Protection Engineering Lecture 13 - Internal corrosion of oil and steel gas pipelines
Link NOC:Cathodic Protection Engineering Lecture 14 - Anodic protection engineering
Link NOC:Introduction to Materials Science and Engineering Lecture 1 - Intoduction
Link NOC:Introduction to Materials Science and Engineering Lecture 2 - Crystal geometry
Link NOC:Introduction to Materials Science and Engineering Lecture 3 - Unit cell
Link NOC:Introduction to Materials Science and Engineering Lecture 4 - Classification of lattices
Link NOC:Introduction to Materials Science and Engineering Lecture 5 - Gaps in Bravais lattice list
Link NOC:Introduction to Materials Science and Engineering Lecture 6 - Symmetry - I
Link NOC:Introduction to Materials Science and Engineering Lecture 7 - Symmetry - II
Link NOC:Introduction to Materials Science and Engineering Lecture 8 - Classification of lattices on the basis of symmetry
Link NOC:Introduction to Materials Science and Engineering Lecture 9 - A symmetry based approach to Bravais lattices
Link NOC:Introduction to Materials Science and Engineering Lecture 10 - Miller indices of directions
Link NOC:Introduction to Materials Science and Engineering Lecture 11 - Miller indices for planes
Link NOC:Introduction to Materials Science and Engineering Lecture 12 - Miller indices for plane and its normal in Cubic Crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 13 - Weiss Zone law and its applications
Link NOC:Introduction to Materials Science and Engineering Lecture 14 - Inter-planar spacing
Link NOC:Introduction to Materials Science and Engineering Lecture 15 - Bragg’s Law
Link NOC:Introduction to Materials Science and Engineering Lecture 16 - Close-packing of hard spheres
Link NOC:Introduction to Materials Science and Engineering Lecture 17 - Hexagonal Close-Packed (HCP) structure
Link NOC:Introduction to Materials Science and Engineering Lecture 18 - Lattice and motif of HCP crystals
Link NOC:Introduction to Materials Science and Engineering Lecture 19 - c/a ratio of an ideal HCP crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 20 - ABCABC stacking of close-packed spheres
Link NOC:Introduction to Materials Science and Engineering Lecture 21 - Voids in close-packed structures
Link NOC:Introduction to Materials Science and Engineering Lecture 22 - Solid solutions - I
Link NOC:Introduction to Materials Science and Engineering Lecture 23 - Solid solutions - II
Link NOC:Introduction to Materials Science and Engineering Lecture 24 - Hume-Rothery rules
Link NOC:Introduction to Materials Science and Engineering Lecture 25 - Ordered and disordered solid solutions
Link NOC:Introduction to Materials Science and Engineering Lecture 26 - Graphene
Link NOC:Introduction to Materials Science and Engineering Lecture 27 - Structure of graphite
Link NOC:Introduction to Materials Science and Engineering Lecture 28 - Structure of diamond
Link NOC:Introduction to Materials Science and Engineering Lecture 29 - Carbon nanotubes (CNT)
Link NOC:Introduction to Materials Science and Engineering Lecture 30 - Buckminsterfullerene (C60)
Link NOC:Introduction to Materials Science and Engineering Lecture 31 - Ionic solids
Link NOC:Introduction to Materials Science and Engineering Lecture 32 - NaCl
Link NOC:Introduction to Materials Science and Engineering Lecture 33 - CsCl
Link NOC:Introduction to Materials Science and Engineering Lecture 34 - ZnS
Link NOC:Introduction to Materials Science and Engineering Lecture 35 - BCC vs CsCl
Link NOC:Introduction to Materials Science and Engineering Lecture 36 - Amorphous Solids
Link NOC:Introduction to Materials Science and Engineering Lecture 37 - Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 38 - Vinyl Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 39 - Thermoplasts and Thermosets
Link NOC:Introduction to Materials Science and Engineering Lecture 40 - Tacticity
Link NOC:Introduction to Materials Science and Engineering Lecture 41 - Copolymers
Link NOC:Introduction to Materials Science and Engineering Lecture 42 - Crystallinity in Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 43 - Defects in Crystals
Link NOC:Introduction to Materials Science and Engineering Lecture 44 - Vacancies
Link NOC:Introduction to Materials Science and Engineering Lecture 45 - Edge dislocation: Half plane
Link NOC:Introduction to Materials Science and Engineering Lecture 46 - Edge dislocation: Slip
Link NOC:Introduction to Materials Science and Engineering Lecture 47 - Characteristic vectors of a dislocation
Link NOC:Introduction to Materials Science and Engineering Lecture 48 - Edge, screw and mixed dislocations
Link NOC:Introduction to Materials Science and Engineering Lecture 49 - Screw dislocations
Link NOC:Introduction to Materials Science and Engineering Lecture 50 - Burgers circuit
Link NOC:Introduction to Materials Science and Engineering Lecture 51 - Elastic energy of a dislocation line
Link NOC:Introduction to Materials Science and Engineering Lecture 52 - Burgers vector: Shortest lattice translation
Link NOC:Introduction to Materials Science and Engineering Lecture 53 - Burgers vector of a dislocation is constant along the line
Link NOC:Introduction to Materials Science and Engineering Lecture 54 - Geometrical properties of a dislocations: Dislocation cannot end abruptly in a crystal: Free surface
Link NOC:Introduction to Materials Science and Engineering Lecture 55 - Dislocation cannot end abruptly in a crystal: Grain boundaries
Link NOC:Introduction to Materials Science and Engineering Lecture 56 - Dislocation cannot end abruptly in a crystal: Dislocation nodes
Link NOC:Introduction to Materials Science and Engineering Lecture 57 - Dislocation cannot end abruptly in a crystal: Dislocation loop
Link NOC:Introduction to Materials Science and Engineering Lecture 58 - Dislocation motion
Link NOC:Introduction to Materials Science and Engineering Lecture 59 - 2D defects: Surfaces or interfaces
Link NOC:Introduction to Materials Science and Engineering Lecture 60 - Free surface or external surface of the crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 61 - Stacking faults
Link NOC:Introduction to Materials Science and Engineering Lecture 62 - Twin boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 63 - Grain boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 64 - Small angle symmetric tilt boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 65 - Ball bearing model
Link NOC:Introduction to Materials Science and Engineering Lecture 66 - Phase diagrams: Introduction
Link NOC:Introduction to Materials Science and Engineering Lecture 67 - Phases and components
Link NOC:Introduction to Materials Science and Engineering Lecture 68 - Uses of phase diagrams
Link NOC:Introduction to Materials Science and Engineering Lecture 69 - Phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 70 - Composition of phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 71 - Proportion of phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 72 - Microstructure evolution during solidification in isomorphous systems
Link NOC:Introduction to Materials Science and Engineering Lecture 73 - Eutectic system
Link NOC:Introduction to Materials Science and Engineering Lecture 74 - Eutectic reaction
Link NOC:Introduction to Materials Science and Engineering Lecture 75 - Eutectic, hypoeutectic and hypereutectic alloys
Link NOC:Introduction to Materials Science and Engineering Lecture 76 - Gibbs’ phase rule
Link NOC:Introduction to Materials Science and Engineering Lecture 77 - Fe-C phase diagram
Link NOC:Introduction to Materials Science and Engineering Lecture 78 - Eutectoid, hypoeutectoid and hypereutectoid steels
Link NOC:Introduction to Materials Science and Engineering Lecture 79 - Microstructure of a hypoeutectoid steel
Link NOC:Introduction to Materials Science and Engineering Lecture 80 - Microstructure of a hypereutectoid steel
Link NOC:Introduction to Materials Science and Engineering Lecture 81 - Diffusion: Introduction
Link NOC:Introduction to Materials Science and Engineering Lecture 82 - Fick’s first law
Link NOC:Introduction to Materials Science and Engineering Lecture 83 - Fick’s second law
Link NOC:Introduction to Materials Science and Engineering Lecture 84 - Error function solution of Fick’s second law
Link NOC:Introduction to Materials Science and Engineering Lecture 85 - Atomic mechanisms of diffusion
Link NOC:Introduction to Materials Science and Engineering Lecture 86 - Substitutional diffusion revisited
Link NOC:Introduction to Materials Science and Engineering Lecture 87 - Diffusion paths
Link NOC:Introduction to Materials Science and Engineering Lecture 88 - Steady and unsteady state diffusion
Link NOC:Introduction to Materials Science and Engineering Lecture 89 - Phase Transformation
Link NOC:Introduction to Materials Science and Engineering Lecture 90 - Nucleation
Link NOC:Introduction to Materials Science and Engineering Lecture 91 - Nucleation and capillary rise
Link NOC:Introduction to Materials Science and Engineering Lecture 92 - Nucleation, growth and overall transformation
Link NOC:Introduction to Materials Science and Engineering Lecture 93 - Time-temperature-transformation (TTT) diagram
Link NOC:Introduction to Materials Science and Engineering Lecture 94 - Homogeneus and heterogeneous nucleation
Link NOC:Introduction to Materials Science and Engineering Lecture 95 - Heat treatment of steels
Link NOC:Introduction to Materials Science and Engineering Lecture 96 - TTT diagram of Eutectoid Steels
Link NOC:Introduction to Materials Science and Engineering Lecture 97 - Quenching and martensite
Link NOC:Introduction to Materials Science and Engineering Lecture 98 - Austempering and bainite
Link NOC:Introduction to Materials Science and Engineering Lecture 99 - Tempering
Link NOC:Introduction to Materials Science and Engineering Lecture 100 - Residual stresses and Quench cracks
Link NOC:Introduction to Materials Science and Engineering Lecture 101 - Marquenching and martempering
Link NOC:Introduction to Materials Science and Engineering Lecture 102 - TTT diagram of hypoeutectoid and hypereutectoid steels
Link NOC:Introduction to Materials Science and Engineering Lecture 103 - TTT diagram of alloy steel
Link NOC:Introduction to Materials Science and Engineering Lecture 104 - hardenability of steels
Link NOC:Introduction to Materials Science and Engineering Lecture 105 - Glass Ceramics
Link NOC:Introduction to Materials Science and Engineering Lecture 106 - Tensile test
Link NOC:Introduction to Materials Science and Engineering Lecture 107 - Plastic deformation and crystal structure
Link NOC:Introduction to Materials Science and Engineering Lecture 108 - Shape change
Link NOC:Introduction to Materials Science and Engineering Lecture 109 - Slip
Link NOC:Introduction to Materials Science and Engineering Lecture 110 - Resolved shear stress
Link NOC:Introduction to Materials Science and Engineering Lecture 111 - CRSS
Link NOC:Introduction to Materials Science and Engineering Lecture 112 - Schmid's law
Link NOC:Introduction to Materials Science and Engineering Lecture 113 - CRSS:Theory vs experiment
Link NOC:Introduction to Materials Science and Engineering Lecture 114 - Why is experimental CRSS less than theoretical CRSS
Link NOC:Introduction to Materials Science and Engineering Lecture 115 - Strengthening mechaniksms
Link NOC:Introduction to Materials Science and Engineering Lecture 116 - Dislocation density
Link NOC:Introduction to Materials Science and Engineering Lecture 117 - Frank-Read source
Link NOC:Introduction to Materials Science and Engineering Lecture 118 - strain hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 119 - Dislocation interaction leading to strain hardening - I
Link NOC:Introduction to Materials Science and Engineering Lecture 120 - Dislocation interaction leading to strain hardening - II
Link NOC:Introduction to Materials Science and Engineering Lecture 121 - Solid solution hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 122 - Grain size hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 123 - Age hardening - I
Link NOC:Introduction to Materials Science and Engineering Lecture 124 - Age hardening - II
Link NOC:Introduction to Materials Science and Engineering Lecture 125 - Metastable precipitates
Link NOC:Introduction to Materials Science and Engineering Lecture 126 - Annealing of cold-worked metals
Link NOC:Introduction to Materials Science and Engineering Lecture 127 - Recovery
Link NOC:Introduction to Materials Science and Engineering Lecture 128 - Recrystallization
Link NOC:Introduction to Materials Science and Engineering Lecture 129 - Grain Growth
Link NOC:Introduction to Materials Science and Engineering Lecture 130 - True stress and true strain
Link NOC:Introduction to Materials Science and Engineering Lecture 131 - Creep
Link NOC:Introduction to Materials Science and Engineering Lecture 132 - Effect of stress and temperature on creep
Link NOC:Introduction to Materials Science and Engineering Lecture 133 - Creep Mechanisms
Link NOC:Introduction to Materials Science and Engineering Lecture 134 - Composites
Link NOC:Introduction to Materials Science and Engineering Lecture 135 - Isostrain modulus
Link NOC:Introduction to Materials Science and Engineering Lecture 136 - Isostress modulus
Link NOC:Introduction to Materials Science and Engineering Lecture 137 - Fracture
Link NOC:Introduction to Materials Science and Engineering Lecture 138 - Ductile and Brittle Fracture
Link NOC:Introduction to Materials Science and Engineering Lecture 139 - Role of crack size
Link NOC:Introduction to Materials Science and Engineering Lecture 140 - Griffith's Criterion
Link NOC:Introduction to Materials Science and Engineering Lecture 141 - Stress Concentration
Link NOC:Introduction to Materials Science and Engineering Lecture 142 - Ductile to brittle transition
Link NOC:Introduction to Materials Science and Engineering Lecture 143 - Enhancing fracture resistance
Link NOC:Introduction to Materials Science and Engineering Lecture 144 - Toughening of glass: Tempering
Link NOC:Introduction to Materials Science and Engineering Lecture 145 - Toughening of glass: Ion-Exchange
Link NOC:Introduction to Materials Science and Engineering Lecture 146 - Fatigue
Link NOC:Introduction to Materials Science and Engineering Lecture 147 - Sub-Critical crack growth
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 1 - Structure and properties of materials - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 2 - Structure and properties of materials - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 3 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 4 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 5 - Continuum Plasticity - I (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 6 - Continuum Plasticity - I (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 7 - Continuum Plasticity - II (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 8 - Continuum Plasticity - II (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 9 - Crystal Plasticity - I (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 10 - Crystal Plasticity - I (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 11 - Crystal Plasticity - II (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 12 - Crystal Plasticity - II (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 13 - Crystal Plasticity - II (Part C)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 14 - Hardening Mechanisms in Metals - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 15 - Hardening Mechanisms in Metals - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 16 - Hardening Mechanisms in Metals - Part III
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 17 - Multi-Scale Approach to Materials Modelling
Link Advanced Characterization Techniques Lecture 1 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 2 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 3 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 4 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 5 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 6 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 7 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 8 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 9 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 10 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 11 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 12 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 13 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 14 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 15 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 16 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 17 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 18 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 19 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 20 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 21 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 22 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 23 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 24 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 25 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 26 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 27 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 28 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 29 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 30 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 31 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 32 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 33 - Advanced Characterization Techniques
Link Electroceramics Lecture 1
Link Electroceramics Lecture 2
Link Electroceramics Lecture 3
Link Electroceramics Lecture 4
Link Electroceramics Lecture 5
Link Electroceramics Lecture 6
Link Electroceramics Lecture 7
Link Electroceramics Lecture 8
Link Electroceramics Lecture 9
Link Electroceramics Lecture 10
Link Electroceramics Lecture 11
Link Electroceramics Lecture 12
Link Electroceramics Lecture 13
Link Electroceramics Lecture 14
Link Electroceramics Lecture 15
Link Electroceramics Lecture 16
Link Electroceramics Lecture 17
Link Electroceramics Lecture 18
Link Electroceramics Lecture 19
Link Electroceramics Lecture 20
Link Electroceramics Lecture 21
Link Electroceramics Lecture 22
Link Electroceramics Lecture 23
Link Electroceramics Lecture 24
Link Electroceramics Lecture 25
Link Electroceramics Lecture 26
Link Electroceramics Lecture 27
Link Electroceramics Lecture 28
Link Electroceramics Lecture 29
Link Electroceramics Lecture 30
Link Electroceramics Lecture 31
Link Electroceramics Lecture 32
Link Electroceramics Lecture 33
Link Electroceramics Lecture 34
Link Electroceramics Lecture 35
Link Electroceramics Lecture 36
Link Electroceramics Lecture 37
Link Electroceramics Lecture 38
Link Electroceramics Lecture 39
Link Electroceramics Lecture 40
Link Electroceramics Lecture 41
Link Fuels Refractory and Furnaces Lecture 1 - Energy Resources and Environment
Link Fuels Refractory and Furnaces Lecture 2 - Characterization of Fuels: Concepts
Link Fuels Refractory and Furnaces Lecture 3 - Characterization of Fuels: Concepts
Link Fuels Refractory and Furnaces Lecture 4 - Production of Secondary Fuels : Carbonization
Link Fuels Refractory and Furnaces Lecture 5 - Materials Balance in Coke-making
Link Fuels Refractory and Furnaces Lecture 6 - Heat Balance and Clean Development Mechanism
Link Fuels Refractory and Furnaces Lecture 7 - Production of Secondary Fuels: Gasification
Link Fuels Refractory and Furnaces Lecture 8 - Materials and Heat Balance in Gasification
Link Fuels Refractory and Furnaces Lecture 9 - Principles of combustion: Concepts and illustrations
Link Fuels Refractory and Furnaces Lecture 10 - Principles of combustion: Concepts and illustrations
Link Fuels Refractory and Furnaces Lecture 11 - Materials balance in combustion
Link Fuels Refractory and Furnaces Lecture 12 - Principles of Combustion: Flame Temperature
Link Fuels Refractory and Furnaces Lecture 13 - Flame Temperature Calculations
Link Fuels Refractory and Furnaces Lecture 14 - Refractory in Furnaces
Link Fuels Refractory and Furnaces Lecture 15 - Refractory in Furnaces
Link Fuels Refractory and Furnaces Lecture 16 - Furnace: Types and Classification
Link Fuels Refractory and Furnaces Lecture 17 - Heat Utilization in furnaces, energy flow diagrams
Link Fuels Refractory and Furnaces Lecture 18 - Heat Utilization in furnaces, energy flow diagrams
Link Fuels Refractory and Furnaces Lecture 19 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Link Fuels Refractory and Furnaces Lecture 20 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Link Fuels Refractory and Furnaces Lecture 21 - Transport Phenomena in Furnaces: Fluid Flow
Link Fuels Refractory and Furnaces Lecture 22 - Macroscopic Energy Balance: Concepts
Link Fuels Refractory and Furnaces Lecture 23 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 24 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 25 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 26 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 27 - Principles of Burner Design
Link Fuels Refractory and Furnaces Lecture 28 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Link Fuels Refractory and Furnaces Lecture 29 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Link Fuels Refractory and Furnaces Lecture 30 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Link Fuels Refractory and Furnaces Lecture 31 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Link Fuels Refractory and Furnaces Lecture 32 - Steady Heat flows in Furnace and Heat Exchanger
Link Fuels Refractory and Furnaces Lecture 33 - Exercises on Heat Flow in Furnaces and Heat Exchangers
Link Fuels Refractory and Furnaces Lecture 34 - Exercises on Heat Flow in Furnaces and Heat Exchangers
Link Fuels Refractory and Furnaces Lecture 35 - Miscellaneous Topics: Atmosphere in Furnaces
Link Fuels Refractory and Furnaces Lecture 36 - Miscellaneous Topics: Pyrometry
Link Fuels Refractory and Furnaces Lecture 37 - Miscellaneous Topics: Pyrometry
Link Fuels Refractory and Furnaces Lecture 38 - Miscellaneous topics: Electric Resistance Heating
Link Fuels Refractory and Furnaces Lecture 39 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
Link Fuels Refractory and Furnaces Lecture 40 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
Link Introduction to Biomaterials Lecture 1 - Introduction to basic concepts of Biomaterials Science; Salient properties of important material classes; overview of body environment,
Link Introduction to Biomaterials Lecture 2 - Manufacturing and properties of metals, ceramics, polymers and composites
Link Introduction to Biomaterials Lecture 3 - Concept of biocompatibility, host response, structure-property of biological cell
Link Introduction to Biomaterials Lecture 4 - Structure and properties of cells, protein and cellular adaptation process
Link Introduction to Biomaterials Lecture 5 - Cell-I
Link Introduction to Biomaterials Lecture 6 - Cell-II
Link Introduction to Biomaterials Lecture 7 - Cell Migration and Cell Division and cell death
Link Introduction to Biomaterials Lecture 8 - Cell Differentiation and Cell Death
Link Introduction to Biomaterials Lecture 9 - Cell Apoptosis-I
Link Introduction to Biomaterials Lecture 10 - Cell Apoptosis-II
Link Introduction to Biomaterials Lecture 11 - Structure and properties of Protein; cell - material interaction
Link Introduction to Biomaterials Lecture 12 - Assessment of biocompatibility of biomaterials
Link Introduction to Biomaterials Lecture 13 - Biological testing (hemocompatibility, tribological testing)
Link Introduction to Biomaterials Lecture 14 - Structure and properties of bone as well as in vivo testing and histocompatibility assessment
Link Introduction to Biomaterials Lecture 15 - Important biometallic alloys
Link Introduction to Biomaterials Lecture 16 - Ti Alloy
Link Introduction to Biomaterials Lecture 17 - Co-Cr-Mo alloys
Link Introduction to Biomaterials Lecture 18 - Bioceramics
Link Introduction to Biomaterials Lecture 19 - Processing of Bioceramics
Link Introduction to Biomaterials Lecture 20 - Ceramics, Bioceramics and Glasses
Link Introduction to Biomaterials Lecture 21 - Sintering and mechanical properties of ceramics
Link Introduction to Biomaterials Lecture 22 - Fracture and toughening of ceramic composites
Link Introduction to Biomaterials Lecture 23 - Development of based bioceramic composites for hard tissue replacement
Link Introduction to Biomaterials Lecture 24 - Alternative phosphate materials, based composites with bactericidal property and glass ceramics for dental restoration
Link Introduction to Biomaterials Lecture 25 - Electrostatic Spraying of UHMWPE-HA-CNT composites
Link Introduction to Biomaterials Lecture 26 - Thin Films and Coatings
Link Introduction to Biomaterials Lecture 27 - hermal Spray Coatings
Link Introduction to Biomaterials Lecture 28 - Biocompatibility of plasma sprayed CNT reinforced Hydroxyapatite biocomposite coatings
Link Introduction to Biomaterials Lecture 29 - Biocompatibility of Alumina and CNT reinforced Hydroxyapatite
Link Introduction to Biomaterials Lecture 30 - Glass-ceramics for dental restoration applications
Link Introduction to Biomaterials Lecture 31 - Structure and properties of polymers
Link Introduction to Biomaterials Lecture 32 - Biodegradable polymers (Importance)
Link Introduction to Biomaterials Lecture 33 - Biodegradable polymers (Types)
Link Introduction to Biomaterials Lecture 34 - Mechanisms of Bioerosion
Link Introduction to Biomaterials Lecture 35 - External field and material interaction
Link Introduction to Biomaterials Lecture 36 - Tissue Engineering and wound healing
Link Introduction to Biomaterials Lecture 37 - Understanding Design Concepts of Bio-implants
Link Introduction to Biomaterials Lecture 38 - Understanding Design Concepts of Dental-implants
Link Introduction to Biomaterials Lecture 39 - Understanding Design Concepts of Orthopedic-implant
Link Materials and Energy balance in Metallurgical Processes Lecture 1 - Introduction to Course
Link Materials and Energy balance in Metallurgical Processes Lecture 2 - Measurement of Quantities
Link Materials and Energy balance in Metallurgical Processes Lecture 3 - Exercises on Measurement of Quantities, Introduction to Stoichiometry
Link Materials and Energy balance in Metallurgical Processes Lecture 4 - Stoichiometry Concept and Exercise
Link Materials and Energy balance in Metallurgical Processes Lecture 5 - Exercise on Stoichiometry and Introduction to Thermochemistry
Link Materials and Energy balance in Metallurgical Processes Lecture 6 - Thermochemistry
Link Materials and Energy balance in Metallurgical Processes Lecture 7 - Exercise on Thermochemistry & Frequently Asked Questions
Link Materials and Energy balance in Metallurgical Processes Lecture 8 - Errors in Measurements
Link Materials and Energy balance in Metallurgical Processes Lecture 9 - Basics of Materials & Energy Balance
Link Materials and Energy balance in Metallurgical Processes Lecture 10 - Introduction to Mineral Beneficiation
Link Materials and Energy balance in Metallurgical Processes Lecture 11 - Materials Balance in Mineral Processing and Faq
Link Materials and Energy balance in Metallurgical Processes Lecture 12 - Exercises in Mineral Processing
Link Materials and Energy balance in Metallurgical Processes Lecture 13 - Calcination Concepts & Exercises
Link Materials and Energy balance in Metallurgical Processes Lecture 14 - Pyromet ExtractionUnit Processes
Link Materials and Energy balance in Metallurgical Processes Lecture 15 - Predominance Area Diagram
Link Materials and Energy balance in Metallurgical Processes Lecture 16 - Material Balance in Roasting;illustration
Link Materials and Energy balance in Metallurgical Processes Lecture 17 - Heat Balance in Roasting illustration
Link Materials and Energy balance in Metallurgical Processes Lecture 18 - Exersises on Roasting
Link Materials and Energy balance in Metallurgical Processes Lecture 19 - Exercises on Roasting
Link Materials and Energy balance in Metallurgical Processes Lecture 20 - Smelting Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 21 - Exercise-I Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 22 - Exercise-II Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 23 - Reduction Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 24 - Lead Smelting Material Balance
Link Materials and Energy balance in Metallurgical Processes Lecture 25 - Imperial Smelting Process
Link Materials and Energy balance in Metallurgical Processes Lecture 26 - Introduction to Ironmaking
Link Materials and Energy balance in Metallurgical Processes Lecture 27 - Coke Making
Link Materials and Energy balance in Metallurgical Processes Lecture 28 - Ironmaking Fundamentals
Link Materials and Energy balance in Metallurgical Processes Lecture 29 - Material & Heat Balance in Ironmaking - I
Link Materials and Energy balance in Metallurgical Processes Lecture 30 - Material & Heat Balance in Ironmaking - II
Link Materials and Energy balance in Metallurgical Processes Lecture 31 - RIST Diagram - I
Link Materials and Energy balance in Metallurgical Processes Lecture 32 - RIST Diagram - II
Link Materials and Energy balance in Metallurgical Processes Lecture 33 - Concepts in Converting
Link Materials and Energy balance in Metallurgical Processes Lecture 34 - Exercise in Converting
Link Materials and Energy balance in Metallurgical Processes Lecture 35 - Additional Topics - I Melting in Cupola
Link Materials and Energy balance in Metallurgical Processes Lecture 36 - Additional Topics - II Gasification
Link Materials and Energy balance in Metallurgical Processes Lecture 37 - Additional Topics - III Material Balance in Gasification
Link Materials and Energy balance in Metallurgical Processes Lecture 38 - Additional Topics - IV Industrial Furnaces
Link Materials and Energy balance in Metallurgical Processes Lecture 39 - Energy Balance in Industrial Furnaces
Link Materials and Energy balance in Metallurgical Processes Lecture 40 - Thoughts on Application of Energy Balance
Link Optoelectronic Materials and Devices Lecture 1 - Conductivity of materials, Drude’s theory and its failures
Link Optoelectronic Materials and Devices Lecture 2 - Free electron theory
Link Optoelectronic Materials and Devices Lecture 3 - Free electron theory
Link Optoelectronic Materials and Devices Lecture 4 - Crystal structure, Reciprocal lattice I
Link Optoelectronic Materials and Devices Lecture 5 - Reciprocal lattice II, Brillouin zone and Bragg’s diffraction condition
Link Optoelectronic Materials and Devices Lecture 6 - Electrons in a crystal, Bloch’s electron
Link Optoelectronic Materials and Devices Lecture 7 - Free electron band diagrams in an empty lattice
Link Optoelectronic Materials and Devices Lecture 8 - Effect of periodic potential, Origin of band-gap through Kronig-Penny model
Link Optoelectronic Materials and Devices Lecture 9 - Electron dynamics
Link Optoelectronic Materials and Devices Lecture 10 - Conduction in relation to band diagrams
Link Optoelectronic Materials and Devices Lecture 11 - Semiconductor E-k diagrams and their material properties
Link Optoelectronic Materials and Devices Lecture 12 - Equilibrium carrier statistics in semiconductors: density of states, fermi function and population density in bands
Link Optoelectronic Materials and Devices Lecture 13 - Equilibrium carrier statistics in semiconductors: qualitative examination of carrier densities in conduction and valence bands
Link Optoelectronic Materials and Devices Lecture 14 - Equilibrium carrier statistics in semiconductors: quantitative examination of carrier densities in intrinsic semiconductor
Link Optoelectronic Materials and Devices Lecture 15 - Doping in semiconductors
Link Optoelectronic Materials and Devices Lecture 16 - Equilibrium carrier statistics in semiconductors: complete ionization of dopant levels
Link Optoelectronic Materials and Devices Lecture 17 - Equilibrium carrier statistics in semiconductors: carrier freeze out
Link Optoelectronic Materials and Devices Lecture 18 - Semiconductor junctions in band-diagrams
Link Optoelectronic Materials and Devices Lecture 19 - Linear dielectric behavior
Link Optoelectronic Materials and Devices Lecture 20 - Non-linear dielectric behavior
Link Optoelectronic Materials and Devices Lecture 21 - Carrier recombination-generation - I: band-to-band transition
Link Optoelectronic Materials and Devices Lecture 22 - Carrier recombination-generation - II: Other mechanisms
Link Optoelectronic Materials and Devices Lecture 23 - R-G statistics via R-G centers
Link Optoelectronic Materials and Devices Lecture 24 - Optoelectronic materials and bandgap engineering
Link Optoelectronic Materials and Devices Lecture 25 - Optical properties of materials
Link Optoelectronic Materials and Devices Lecture 26 - Optical properties of single interfaces: Fresnal reflection coefficients
Link Optoelectronic Materials and Devices Lecture 27 - Optical Properties of two interfaces: thin film case
Link Optoelectronic Materials and Devices Lecture 28 - Drift
Link Optoelectronic Materials and Devices Lecture 29 - Diffusion
Link Optoelectronic Materials and Devices Lecture 30 - Continuity Equation
Link Optoelectronic Materials and Devices Lecture 31 - Resistor and diode (p-n junction)
Link Optoelectronic Materials and Devices Lecture 32 - Fundamentals of p-n junction
Link Optoelectronic Materials and Devices Lecture 33 - Fundamentals of p-n junction (Continued...)
Link Optoelectronic Materials and Devices Lecture 34 - Solar cells
Link Optoelectronic Materials and Devices Lecture 35 - Microelectronics processing
Link Optoelectronic Materials and Devices Lecture 36 - MOS capacitor
Link Optoelectronic Materials and Devices Lecture 37 - Transistor
Link Optoelectronic Materials and Devices Lecture 38 - Organic Electronics
Link Optoelectronic Materials and Devices Lecture 39 - Organic Light Emitting Diodes
Link Optoelectronic Materials and Devices Lecture 40 - Organic Solar Cells and Organics Thin Film Transistors
Link Steel Making Lecture 1
Link Steel Making Lecture 2
Link Steel Making Lecture 3
Link Steel Making Lecture 4
Link Steel Making Lecture 5
Link Steel Making Lecture 6
Link Steel Making Lecture 7
Link Steel Making Lecture 8
Link Steel Making Lecture 9
Link Steel Making Lecture 10
Link Steel Making Lecture 11
Link Steel Making Lecture 12
Link Steel Making Lecture 13
Link Steel Making Lecture 14
Link Steel Making Lecture 15
Link Steel Making Lecture 16
Link Steel Making Lecture 17
Link Steel Making Lecture 18
Link Steel Making Lecture 19
Link Steel Making Lecture 20
Link Steel Making Lecture 21
Link Steel Making Lecture 22
Link Steel Making Lecture 23
Link Steel Making Lecture 24
Link Steel Making Lecture 25
Link Steel Making Lecture 26
Link Steel Making Lecture 27
Link Steel Making Lecture 28
Link Steel Making Lecture 29
Link Steel Making Lecture 30
Link Steel Making Lecture 31
Link Steel Making Lecture 32
Link Steel Making Lecture 33
Link Steel Making Lecture 34
Link Steel Making Lecture 35
Link Steel Making Lecture 36
Link Steel Making Lecture 37
Link Steel Making Lecture 38
Link Steel Making Lecture 39
Link Steel Making Lecture 40
Link Steel Making Lecture 41
Link Steel Making Lecture 42
Link Structure of Materials Lecture 1 - Overview
Link Structure of Materials Lecture 2 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 3 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 4 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 5 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 6 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 7 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 8 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 9 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 10 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 11 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 12 - Geometry of Crystals: Symmetry, Lattices (Continued...) and Miller Indices
Link Structure of Materials Lecture 13 - Miller Indices
Link Structure of Materials Lecture 14 - Miller Indices (Continued...) and Crystal Structures
Link Structure of Materials Lecture 15 - Crystal Structures
Link Structure of Materials Lecture 16 - Crystal Structures
Link Structure of Materials Lecture 17 - Crystal Structures
Link Structure of Materials Lecture 18 - Crystal Structures
Link Structure of Materials Lecture 19 - Crystal Structures
Link Structure of Materials Lecture 20 - Crystal Structures
Link Structure of Materials Lecture 21 - Crystal Structures (Continued...) and Defects in Crystals
Link Structure of Materials Lecture 22 - Defects in Crystals
Link Structure of Materials Lecture 23 - Defects in Crystals
Link Structure of Materials Lecture 24 - Defects in Crystals
Link Structure of Materials Lecture 25 - Defects in Crystals
Link Structure of Materials Lecture 26 - Defects in Crystals
Link Structure of Materials Lecture 27 - Defects in Crystals
Link Structure of Materials Lecture 28 - Defects in Crystals
Link Structure of Materials Lecture 29 - Defects in Crystals
Link Structure of Materials Lecture 30 - Diffusion in Solids
Link Structure of Materials Lecture 31 - Diffusion in Solids
Link Structure of Materials Lecture 32 - Phase Diagrams
Link Structure of Materials Lecture 33 - Phase Diagrams
Link Structure of Materials Lecture 34 - Phase Diagrams
Link Structure of Materials Lecture 35 - Phase Diagrams
Link Structure of Materials Lecture 36 - Phase Diagrams
Link Structure of Materials Lecture 37 - Phase Transformations
Link Structure of Materials Lecture 38 - Phase Transformations
Link Structure of Materials Lecture 39 - Phase Transformations
Link Structure of Materials Lecture 40 - Phase Transformations
Link Structure of Materials Lecture 41 - Phase Transformations
Link Structure of Materials Lecture 42 - Phase Transformations
Link Structure of Materials Lecture 43 - Phase Transformations
Link Structure of Materials Lecture 44 - Phase Transformations
Link Structure of Materials Lecture 45 - Phase Transformations
Link Environmental Degradation of Materials Lecture 1 - Introduction, Basic definition of corrosion
Link Environmental Degradation of Materials Lecture 2 - Forms of Degradation, Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 3 - Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 4 - Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 5 - Thermodynamics of corrosion, Electrochemical series, Concentration cell
Link Environmental Degradation of Materials Lecture 6 - Reduction Potential series, Pourbaix diagram
Link Environmental Degradation of Materials Lecture 7 - Pourbaix diagram
Link Environmental Degradation of Materials Lecture 8 - Pourbaix diagram
Link Environmental Degradation of Materials Lecture 9 - Pourbaix diagram, Kinetics of corrosion
Link Environmental Degradation of Materials Lecture 10 - Kinetics of corrosion, Rate expression, Solved problems
Link Environmental Degradation of Materials Lecture 11 - Solved problems on the corrosion rate, Exchange current density
Link Environmental Degradation of Materials Lecture 12 - Exchange current density, Polarization, Activation Polarization, Tafel Equation
Link Environmental Degradation of Materials Lecture 13 - Activation Polarization, Concentration Polarization
Link Environmental Degradation of Materials Lecture 14 - Concentration Polarization, Mixed Potential Theory
Link Environmental Degradation of Materials Lecture 15 - Mixed Potential Theory, Explanation of corrosion events on the basis of Mixed potential theory, Galvanization
Link Environmental Degradation of Materials Lecture 16 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of impurity, Effect of area factor
Link Environmental Degradation of Materials Lecture 17 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of area factor, Concentration polarization, Passivation
Link Environmental Degradation of Materials Lecture 18 - Passivation and Mixed potential theory
Link Environmental Degradation of Materials Lecture 19 - Passivation and Mixed potential theory
Link Environmental Degradation of Materials Lecture 20 - Different corrosion protection mechanisms, electrochemical ways of protection, cathodic protection
Link Environmental Degradation of Materials Lecture 21 - Cathodic and anodic protection
Link Environmental Degradation of Materials Lecture 22 - Anodic protection, Forms of corrosion, Factors of corrosion
Link Environmental Degradation of Materials Lecture 23 - Forms of corrosion, Uniform Corrosion, Galvanic corrosion
Link Environmental Degradation of Materials Lecture 24 - Galvanic corrosion
Link Environmental Degradation of Materials Lecture 25 - Crevice corrosion
Link Environmental Degradation of Materials Lecture 26 - Crevice corrosion, Pitting corrosion
Link Environmental Degradation of Materials Lecture 27 - Pitting corrosion, Intergranular corrosion
Link Environmental Degradation of Materials Lecture 28 - Intergranular corrosion, Dealloying
Link Environmental Degradation of Materials Lecture 29 - Dealloying, Erosion corrosion
Link Environmental Degradation of Materials Lecture 30 - Erosion corrosion, Cavitation
Link Environmental Degradation of Materials Lecture 31 - Cavitation, Fretting corrosion, corrosion cracking
Link Environmental Degradation of Materials Lecture 32 - Stress corrosion cracking: mechanisms (dissolution controlled)
Link Environmental Degradation of Materials Lecture 33 - Stress corrosion cracking: mechanisms (cleavage controlled), factors affecting SCC, hydrogen embrittlement, corrosion fatigue
Link Environmental Degradation of Materials Lecture 34 - Biologically influenced corrosion, liquid metal attack
Link Environmental Degradation of Materials Lecture 35 - Corrosion protection, change of materials, effect of design of component
Link Environmental Degradation of Materials Lecture 36 - Corrosion protection, change of environment, Inhibitors, coatings
Link Environmental Degradation of Materials Lecture 37 - Oxidation and hot corrosion, pitting Bedworth ratio, thermodynamics of oxidation
Link Environmental Degradation of Materials Lecture 38 - Thermodynamics of oxidation, Ellingham diagram, oxidation kinetics and laws
Link Environmental Degradation of Materials Lecture 39 - Oxide structure and Oxidation
Link Environmental Degradation of Materials Lecture 40 - Hot corrosion, corrosion testing and failure analysis, linear polarization
Link Environmental Degradation of Materials Lecture 41 - Degradation of composites, polymers and ceramics, corrosion and society
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 1 - Introduction to the course
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 2 - Heterogeneous equilibrium and Free energy Formalism
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 3 - Concept of Chemical Potential
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 4 - Phase Rule-I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 5 - Phase Rule-II and Single Component Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 6 - Single Component Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 7 - Binary Phase Diagram - Isomorphous Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 8 - Binary Ispmorphous System
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 9 - Solidification of Isomorphous Alloys
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 10 - Free Energy of Binary Isomorphous Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 11 - Phase Diagram of Binary Eutectic Systems Edit Lesson
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 12 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 13 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 14 - Phase diagrams of binary eutectic two terminal solid solution
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 15 - Phase diagrams of binary peritectic System - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 16 - Phase diagrams of binary peritectic System - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 17 - Phase diagrams of binary peritectic System with intermediate phases
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 18 - Intermediate Phases
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 19 - Introduction to Monotectic Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 20 - Microstructural Evolution of Monotectic Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 21 - Free Energy Composition diagrams for Monotectic systems and Syntactic phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 22 - Quasichemical theory - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 23 - Quasichemical theory - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 24 - Quasichemical theory Free enegy formalism
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 25 - Solid state reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 26 - Introduction to Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 27 - Eutectoid transformation in Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 28 - Austenite to pearlite transformation in Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 29 - Hypo-eutectoid steels
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 30 - Pearlite Transformation
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 31 - Martensite Transformation - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 32 - Martensite Transformation - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 33 - Tempering of Martensite
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 34 - Bainite Transformation
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 35 - TTT curves for Steel
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 36 - Cast Iron - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 37 - Cast Iron - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 38 - Ductile Iron and Nodular Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 39 - Malleable Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 40 - Alloyed Cast Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 41 - Phase Diagram for different Solid State Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 42 - Phase Diagram of Ceramic
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 43 - Ternary Phase Diagram - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 44 - Ternary Phase Diagram - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 45 - Ternary Phase Diagram and Tie Line Construction - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 46 - Ternary Phase Diagram and Tie Line Construction - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 47 - Ternary Phase Diagram and Tie Line Construction - III
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 48 - Ternary Isomorphous Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 49 - Ternary Three Phase Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 50 - Three Phase Equilibria in Ternary Systems - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 51 - Three Phase Equilibria in Ternary Systems - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 52 - Solidification Behaviour of Ternary Alloy
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 53 - Three Phase Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 54 - Ternary Four Phase Equilibria - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 55 - Ternary Four Phase Equilibria - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 56 - Solidification Behaviour of Ternary Eutectic Alloys
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 57 - Phase Diagram of Ternary Eutectic with Terminal Solid Solution
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 58 - Ternary Peritectic Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 59 - Quasi-peritectic Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 60 - Case Studies on Ternary Phase Diagrams - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 61 - Case Studies on Ternary Phase Diagrams - II
Link NOC:Fundamentals of Material Processing - I Lecture 1 - Introduction
Link NOC:Fundamentals of Material Processing - I Lecture 2 - Solidification (Casting)
Link NOC:Fundamentals of Material Processing - I Lecture 3 - Solidification (Welding)
Link NOC:Fundamentals of Material Processing - I Lecture 4 - Thermodynamics of Solidification
Link NOC:Fundamentals of Material Processing - I Lecture 5 - Kinetics of Solidification (Homogeneous)
Link NOC:Fundamentals of Material Processing - I Lecture 6 - Kinetics of Solidification (Heterogeneous)
Link NOC:Fundamentals of Material Processing - I Lecture 7 - Heat Flow
Link NOC:Fundamentals of Material Processing - I Lecture 8 - Heat Flow (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 9 - Heat Flow (Insulating Mold Condition)
Link NOC:Fundamentals of Material Processing - I Lecture 10 - Heat Flow (Insulating Mold Condition) (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 11 - Heat Flow (Interface Resistance Controlled Solidification)
Link NOC:Fundamentals of Material Processing - I Lecture 12 - Heat Flow (Effect of Superheat)
Link NOC:Fundamentals of Material Processing - I Lecture 13 - Heat Flow (Solidification of Alloys)
Link NOC:Fundamentals of Material Processing - I Lecture 14 - Composition Variation
Link NOC:Fundamentals of Material Processing - I Lecture 15 - Composition Variation (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 16 - Complete and Limited Liquid Diffusion
Link NOC:Fundamentals of Material Processing - I Lecture 17 - Mixed Mode Solidification
Link NOC:Fundamentals of Material Processing - I Lecture 18 - Mixed Mode Solidification and Zone Refining
Link NOC:Fundamentals of Material Processing - I Lecture 19 - Zone Refining (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 20 - Cellular Solidification of Single Phase Alloy
Link NOC:Fundamentals of Material Processing - I Lecture 21 - Cellular Solidification of Single Phase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 22 - Cellular Solidification of Single Phase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 23 - Plane Front Solidification of Multiphase Alloy
Link NOC:Fundamentals of Material Processing - I Lecture 24 - Plane Front Solidification of Multiphase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 25 - Fluid Flow Considerations
Link NOC:Fundamentals of Material Processing - I Lecture 26 - Introduction to Powder Processing
Link NOC:Fundamentals of Material Processing - I Lecture 27 - Introduction to Powder Processing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 28 - Powder characterization
Link NOC:Fundamentals of Material Processing - I Lecture 29 - Powder Characterization Techniques
Link NOC:Fundamentals of Material Processing - I Lecture 30 - Powder Characterization using Surface Area
Link NOC:Fundamentals of Material Processing - I Lecture 31 - Powder Characterization using Gas Permeability Method
Link NOC:Fundamentals of Material Processing - I Lecture 32 - Powder Manufacturing
Link NOC:Fundamentals of Material Processing - I Lecture 33 - Powder Manufacturing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 34 - Powder Manufacturing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 35 - Powder Consolidation
Link NOC:Fundamentals of Material Processing - I Lecture 36 - Powder Consolidation (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 37 - Particle Packing
Link NOC:Fundamentals of Material Processing - I Lecture 38 - Powder Compaction
Link NOC:Fundamentals of Material Processing - I Lecture 39 - Powder Compaction (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 40 - Sintering Theory
Link NOC:Heat Treatment and Surface Hardening - I Lecture 1 - Introduction to Heat Treatment and Importance of Material Tetrahedron
Link NOC:Heat Treatment and Surface Hardening - I Lecture 2 - Case studies in reference to Material tetrahedron T/t information and processing
Link NOC:Heat Treatment and Surface Hardening - I Lecture 3 - Few more case studies in reference to processing with T/t modification
Link NOC:Heat Treatment and Surface Hardening - I Lecture 4 - Critical Definition and Phase Transformation Thermodynamics and Driving Force
Link NOC:Heat Treatment and Surface Hardening - I Lecture 5 - Thermodynamics of Phase Transformation Driving force of Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 6 - Thermodynamics of Phase Transformation and Driving Force for Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 7 - Finding Value of Driving Force (?G) and Single Component (liquid-solid)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 8 - Finding Value of Driving Force (?G) and Nucleation Single Component (liquid-solid)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 9 - Nucleation Treatment Single Component (Solid-Liquid) - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 10 - Nucleation Treatment Single Component (Solid-Liquid) - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 11 - Solved Problem on Nucleation rate and How to determine the value of ?sl Physical Concept & Interfacial Energy
Link NOC:Heat Treatment and Surface Hardening - I Lecture 12 - How to determine the value of ?sl (Physical Concept and Interfacial Energy)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 13 - Interfacial Energy - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 14 - Interfacial Energy - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 15 - Heterogeneous Nucleation - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 16 - Heterogeneous Nucleation - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 17 - Solid - Solid Transformation and Nucleation rate - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 18 - Solid - Solid Transformation and Nucleation rate - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 19 - Phase Diagram and G vs X plot - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 20 - Phase Diagram and G vs X plot - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 21 - Phase Diagram and G vs X plot - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 22 - Introduction to Kinetics of Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 23 - Variation of ?G* and r* with Undercooling
Link NOC:Heat Treatment and Surface Hardening - I Lecture 24 - Nucleation rate - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 25 - Nucleation Rate - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 26 - Critical Undercooling
Link NOC:Heat Treatment and Surface Hardening - I Lecture 27 - Maximum nucleation rate for homogeneous nucleation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 28 - Maximum nucleation rate for heterogeneous nucleation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 29 - Nucleation kinetics in solid state
Link NOC:Heat Treatment and Surface Hardening - I Lecture 30 - Interface controlled growth
Link NOC:Heat Treatment and Surface Hardening - I Lecture 31 - Diffusion controlled growth
Link NOC:Heat Treatment and Surface Hardening - I Lecture 32 - Avrami Kinetics - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 33 - Avrami Kinetics - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 34 - Avrami Kinetics - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 35 - Time-Temperature-Transformation (TTT) diagram
Link NOC:Heat Treatment and Surface Hardening - I Lecture 36 - Diffusion in Solids - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 37 - Diffusion in Solids - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 38 - Diffusion in Solids - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 39 - Diffusion in Solids - IV
Link NOC:Heat Treatment and Surface Hardening - I Lecture 40 - Applications of heat treatment
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 1 - Introduction to Metal Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 2 - Continuum Mechanics
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 3 - Stress Invariants
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 4 - Strain Tensors and Mohr circle for strains
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 5 - Yield Stress Criterion
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 6 - Effective Stress and Strain
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 7 - Work Hardening and Flow Behaviour
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 8 - Effect of Strain Rate
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 9 - Combined Effect of Strain, Strain Rate and Temperature
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 10 - Effect of Temperature
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 11 - Cold, Warm and Hot Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 12 - Mechanics of Metal Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 13 - Wire Drawing
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 14 - Wire Drawing (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 15 - Hodographs
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 16 - Upper-Bound Analysis
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 17 - Plane Strain Indentation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 18 - Strain Calculation Models and Friction
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 19 - Types of Friction
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 20 - Effect of Friction in Rolling
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 21 - Vacuum Technology
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 22 - Vacuum Technology (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 23 - Thermal Evaporation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 24 - Thermal Evaporation (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 25 - Thermal Evaporation (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 26 - Plasma Physics
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 27 - Plasma Physics (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 28 - Sputtering
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 29 - Sputtering (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 30 - Sputtering (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 31 - Chemical Vapor Deposition
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 32 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 33 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 34 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 35 - Epitaxy, Molecular Beam Epitaxy and Atomic Layer Deposition
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 36 - Adsorption and Nucleation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 37 - Thin Film Growth
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 38 - Kinetics of Thin Film Growth
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 39 - Thin Film Morphology- Zone Structure Model
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 40 - Thin Film Characterization
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 41 - Thin Film Characterization
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 1 - Material Evolution
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 2 - Bonding in Materials
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 3 - Correlation between bond and physical properties
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 4 - Crystal Structure: Lattice and Basis
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 5 - Unit Cell (Primitive and Non-primitive)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 6 - Crystal Systems and Bravais Lattices
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 7 - Bravais Lattice and Symmetry in Crystals
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 8 - Symmetry in Crystals
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 9 - Symmetry and Correlation with the Bravais Lattice
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 10 - Miller Indices (Planes and Directions)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 11 - Miller Indices - Part 2
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 12 - Miller Indices - Part 3
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 13 - Miller Indices and Weiss Zone Law
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 14 - Structure of Metals and Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 15 - Structure of Metals, Packing, Co-ordination and Interstices
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 16 - Interstices, Solid Solutions and Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 17 - Solid Solutions: Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 18 - Solid Solutions: Alloy (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 19 - Covalent Solids
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 20 - Covalent Solids (Continued...) and Ionic Solids
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 21 - Ionic Solids: Stability and Rules of Formation
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 22 - Ionic solids (Continued...) : Formation of structure
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 23 - ionic Solids (Continued...) : Close Packing of anions
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 24 - Ionic Solids (Continued...) : Other cubic structures
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 25 - Ionic Solids (Ceramics) : Remaining cubic and non-cubic structures
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 26 - HCP based Structure
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 27 - Structure of Non-crystalline Solids (glasses)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 28 - Structure of Non-Crystalline Solids:Glasses (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 29 - Structure of Non-Crystalline Solids (Polymers)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 30 - Structure of Polymers
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 31 - Structure of Polymers (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 32 - Structure Determination (X-ray Diffraction)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 33 - X-ray Diffraction
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 34 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 35 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 36 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 37 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 38 - Defects in Solids (Point Defects)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 39 - Point Defect Concentration
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 40 - 2-D Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 1 - Introduction to Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 2 - Equilibrium Points Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 3 - Energy of Vacancy Formation
Link NOC:Defects in Crystalline Solids - Part I Lecture 4 - Vacancy Concentration Measurement Techniques
Link NOC:Defects in Crystalline Solids - Part I Lecture 5 - Self-interstitial Defects+Frenkel Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 6 - Schottky Defects+Extrinsic Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 7 - Interstitials in Iron
Link NOC:Defects in Crystalline Solids - Part I Lecture 8 - Defects Reaction+Kroger-Vink Notation
Link NOC:Defects in Crystalline Solids - Part I Lecture 9 - Defects Reaction and its Thermodynamics
Link NOC:Defects in Crystalline Solids - Part I Lecture 10 - Equilibrium Concentration using Defects Reaction
Link NOC:Defects in Crystalline Solids - Part I Lecture 11 - Examples on defect reaction
Link NOC:Defects in Crystalline Solids - Part I Lecture 12 - Diffusion (Interstitial Diffusion)
Link NOC:Defects in Crystalline Solids - Part I Lecture 13 - Non-steady state diffusion
Link NOC:Defects in Crystalline Solids - Part I Lecture 14 - Self-diffusion + Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 15 - Diffusion in substitutional alloys+Diffusion along defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 16 - History of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 17 - Volterra Model + Structure of Dislocations + Burger vectors
Link NOC:Defects in Crystalline Solids - Part I Lecture 18 - Characteristics of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 19 - Mixed Dislocations + Dislocation Loops
Link NOC:Defects in Crystalline Solids - Part I Lecture 20 - Elastic Continuum Model + Strain field for screw dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 21 - Stress and Strain Fields
Link NOC:Defects in Crystalline Solids - Part I Lecture 22 - Stress State around Edge Dislocations+Elastic Energy of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 23 - Glide Forces on Dislocations+Line Tension on Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 24 - Climb Forces on Dislocations+Interaction Between Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 25 - Image Forces on Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 26 - Resistance to Dislocation Motion+Peierl Nebarro Valley
Link NOC:Defects in Crystalline Solids - Part I Lecture 27 - Slip System+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 28 - Dislocations and Slips+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 29 - Critical resolved Shear Stress+Examples (Continued...)
Link NOC:Defects in Crystalline Solids - Part I Lecture 30 - Glide+Kinks
Link NOC:Defects in Crystalline Solids - Part I Lecture 31 - Cross-slip+Climb
Link NOC:Defects in Crystalline Solids - Part I Lecture 32 - Climb+Jogs
Link NOC:Defects in Crystalline Solids - Part I Lecture 33 - Examples on Jogs+Dislocation Intersection
Link NOC:Defects in Crystalline Solids - Part I Lecture 34 - Dislocation Intersection and step characteristics+Superjogs
Link NOC:Defects in Crystalline Solids - Part I Lecture 35 - Strain and strain-rate due to dislocation motion+Velocity of dislocations+Observation of dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 36 - Observation of dislocation (Continued...) + Dislocation Dynamics
Link NOC:Defects in Crystalline Solids - Part I Lecture 37 - Dislocations in FCC+Partial dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 38 - Partial dislocations (Continued...) +Stacking Fault
Link NOC:Defects in Crystalline Solids - Part I Lecture 39 - Thompson's Tetrahedron+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 40 - Dislocations in BCC+Asymmetry of Slip
Link NOC:Corrosion - Part I Lecture 1 - Introduction to corrosion - I
Link NOC:Corrosion - Part I Lecture 2 - Introduction to corrosion - II
Link NOC:Corrosion - Part I Lecture 3 - Types and forms of corrosion
Link NOC:Corrosion - Part I Lecture 4 - Uniform and Galvanic corrosion
Link NOC:Corrosion - Part I Lecture 5 - Crevice and Pitting corrosion
Link NOC:Corrosion - Part I Lecture 6 - Forms of corrosion: Explanation with Examples
Link NOC:Corrosion - Part I Lecture 7 - Electrochemical Nature of Corrosion and its Thermodynamics
Link NOC:Corrosion - Part I Lecture 8 - Thermodynamics aspects of corrosion - I
Link NOC:Corrosion - Part I Lecture 9 - Thermodynamics aspects of corrosion - II
Link NOC:Corrosion - Part I Lecture 10 - Thermodynamics aspects ofcorrosion - III
Link NOC:Corrosion - Part I Lecture 11 - Relation Between Free Energy and Equilibrium Constant
Link NOC:Corrosion - Part I Lecture 12 - Derivation of Nernst Equation
Link NOC:Corrosion - Part I Lecture 13 - Standard Reduction Potential Series for Pure Metals
Link NOC:Corrosion - Part I Lecture 14 - Reduction Potentials in Acidic and Neutral Solutions
Link NOC:Corrosion - Part I Lecture 15 - Nernst equation in terms of pH
Link NOC:Corrosion - Part I Lecture 16 - Limitations of Standard Reduction Potential Series of Pure Metals
Link NOC:Corrosion - Part I Lecture 17 - Concentration Cell Formation and Galvanic Series
Link NOC:Corrosion - Part I Lecture 18 - Examples of Concentration cell and Spontaneity of Corrosion Process
Link NOC:Corrosion - Part I Lecture 19 - Spontaneity of Corrosion Process and Introduction to Pourbaix Diagram
Link NOC:Corrosion - Part I Lecture 20 - Construction of Pourbaix Diagram
Link NOC:Corrosion - Part I Lecture 21 - Construction of Pourbaix diagram for Ni-H2O system - I
Link NOC:Corrosion - Part I Lecture 22 - Construction of Pourbaix diagram for Ni-H2O system - II
Link NOC:Corrosion - Part I Lecture 23 - Construction of Pourbaix diagram for Ni-H2O system - III
Link NOC:Corrosion - Part I Lecture 24 - Pourbaix diagram of Ni-H2O and AI-H2O
Link NOC:Corrosion - Part I Lecture 25 - Inferences from Pourbaix diagram of Fe-H2O and AI-H2O
Link NOC:Corrosion - Part I Lecture 26 - Estimation of Corrosion Rate - I
Link NOC:Corrosion - Part I Lecture 27 - Estimation of Corrosion Rate - II
Link NOC:Corrosion - Part I Lecture 28 - Estimation of Corrosion Rate - III
Link NOC:Corrosion - Part I Lecture 29 - Exchange Current Density
Link NOC:Corrosion - Part I Lecture 30 - Exchange Current Density and Standard Hydrogen Electrode
Link NOC:Corrosion - Part I Lecture 31 - Electrical Double Layer and Polarization
Link NOC:Corrosion - Part I Lecture 32 - Correlation between Current Density and Overvoltage
Link NOC:Corrosion - Part I Lecture 33 - Introduction to Buttler-Volmer Equation
Link NOC:Corrosion - Part I Lecture 34 - Derivation of Tafel Equation
Link NOC:Corrosion - Part I Lecture 35 - Tafel Plot and Activation Polarization
Link NOC:Corrosion - Part I Lecture 36 - Activation polarization, concentration polarization and total polarization
Link NOC:Corrosion - Part I Lecture 37 - Summary of concentration polarization (CP) and introduction to mixed potential theory - I
Link NOC:Corrosion - Part I Lecture 38 - Mixed potential theory - II
Link NOC:Corrosion - Part I Lecture 39 - Understanding of mixed potential theory through the case studies and events of corrosion - I
Link NOC:Corrosion - Part I Lecture 40 - Understanding of mixed potential theory through the case studies and events of corrosion - II
Link NOC:Corrosion - Part I Lecture 41 - Understanding of mixed potential theory through the case studies and events of corrosion - III
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 1 - Introduction to Solar Energy
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 2 - Solar Radiation
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 3 - Atmospheric Effects on Solar Radiation
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 4 - Effect of Location on Time
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 5 - Sun-Earth Angular Relations
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 6 - Solar Radiation Measurements
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 7 - Introduction to Band Theory
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 8 - Semiconductor Basics - I
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 9 - Semiconductor Basics - II
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 10 - Electrical Properties of Semiconductors
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 11 - Carrier Transport
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 12 - Carrier Transport, Generation and Recombination
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 13 - Recombinaton-Generation statistics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 14 - Recombinaton-Generation statistics (Continued...)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 15 - Recombinaton-Generation statistics (Continued...)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 16 - P-N Junction basics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 17 - P-N Junction Characterisitics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 18 - P-N Junction: Effect of Bias
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 19 - P-N Junction Analysis (Dark)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 20 - P-N Junction Analysis (Dark)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 21 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 22 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 23 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 24 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 25 - Solar Cell Device Parameters
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 26 - Solar Cell Device Parameters
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 27 - Solar PV Technologies: Introduction
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 28 - Generation-I Technologies (Mono Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 29 - Generation-I Technologies (Mono Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 30 - Generation-I Technologies (Poly Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 31 - Manufacturing of Si
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 32 - Generation I Technologies: GaAs Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 33 - Generation II Technologies: a-Si Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 34 - Generation II Technologies: CdTe Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 35 - Generation II Technologies: CdTe Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 36 - Generation II Technologies: CIGS Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 37 - Generation II Technologies: CIGS and Multijunction Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 38 - Generation III Technologies: Organic Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 39 - Generation III Technologies: Organic Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 40 - Generation III Technologies: Organic and Dye Sensitized Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 41 - Generation III Technologies: Perovskite and CZTS Solar Cells
Link NOC:Defects in Crystalline Solids - Part II Lecture 1 - Dislocation structure in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 2 - Partial dislocations in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 3 - Thompsons Tetrahedron
Link NOC:Defects in Crystalline Solids - Part II Lecture 4 - Dislocation lock in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 5 - Other defects in FCC (Twins and Frank Partial)
Link NOC:Defects in Crystalline Solids - Part II Lecture 6 - Dislocation structure in BCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 7 - Soft core and Hard core for Screw dislocation in BCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 8 - Dislocation structure in HCP
Link NOC:Defects in Crystalline Solids - Part II Lecture 9 - Burger vector and partial dislocation in HCP
Link NOC:Defects in Crystalline Solids - Part II Lecture 10 - Dislocation structure in ionic crystal
Link NOC:Defects in Crystalline Solids - Part II Lecture 11 - Dislocation structure in superlattices
Link NOC:Defects in Crystalline Solids - Part II Lecture 12 - Stacking fault and Kear-Wilsdorf lock in superlattices
Link NOC:Defects in Crystalline Solids - Part II Lecture 13 - Dislocation interaction & Strain hardening
Link NOC:Defects in Crystalline Solids - Part II Lecture 14 - Origin and Nucleation of dislocations
Link NOC:Defects in Crystalline Solids - Part II Lecture 15 - Multiplication of dislocations
Link NOC:Defects in Crystalline Solids - Part II Lecture 16 - Interactin of point defects and dislocation - Solid Solution Strengthening
Link NOC:Defects in Crystalline Solids - Part II Lecture 17 - Cottrell atmosphere and Yield-point phenomenon
Link NOC:Corrosion - Part II Lecture 1 - Recap of Electrochemical Polarization
Link NOC:Corrosion - Part II Lecture 2 - Recap of Electrochemical Polarization - Activation and Concentration Polarization
Link NOC:Corrosion - Part II Lecture 3 - Electrochemical Polarization: Activation and Concentration Polarization, Tafel Equation
Link NOC:Corrosion - Part II Lecture 4 - Activation and Concentration Polarization: Mixed Potential Theory
Link NOC:Corrosion - Part II Lecture 5 - Concentration Polarization and Mixed Potential Theory
Link NOC:Corrosion - Part II Lecture 6 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Introduction
Link NOC:Corrosion - Part II Lecture 7 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 1
Link NOC:Corrosion - Part II Lecture 8 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2
Link NOC:Corrosion - Part II Lecture 9 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2 (Continued...)
Link NOC:Corrosion - Part II Lecture 10 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 3
Link NOC:Corrosion - Part II Lecture 11 - Effect of Exchange Current Density on Corrosion Rate of an Active Metal
Link NOC:Corrosion - Part II Lecture 12 - Area Effect of the Cathodic and Anodic Component - I
Link NOC:Corrosion - Part II Lecture 13 - Area Effect of the Cathodic and Anodic Component - II
Link NOC:Corrosion - Part II Lecture 14 - Explanation of Corrosion Processess on the Basis of Mixed Potential Theory: Numerical Analysis
Link NOC:Corrosion - Part II Lecture 15 - Galvanic Coupling between Two Active Metals
Link NOC:Corrosion - Part II Lecture 16 - Theory of Sacrificial Anode for the Protection of Steel Objects
Link NOC:Corrosion - Part II Lecture 17 - Effect of two Active Metals on Fe-corrosion when they are Galvanically Coupled
Link NOC:Corrosion - Part II Lecture 18 - Corrosion of Metals when Cathodic Protection is Concentration Controlled
Link NOC:Corrosion - Part II Lecture 19 - Effect of Velocity on the Corrosion Rate of an Active Metal
Link NOC:Corrosion - Part II Lecture 20 - Concentration Polarization and Activation Polarization: Numerical Analysis
Link NOC:Corrosion - Part II Lecture 21 - Numerical Problems and Passivation
Link NOC:Corrosion - Part II Lecture 22 - Theory of Passivation - I
Link NOC:Corrosion - Part II Lecture 23 - Theory of Passivation - II
Link NOC:Corrosion - Part II Lecture 24 - Interaction between Passivation and Pourbaix Diagram - I
Link NOC:Corrosion - Part II Lecture 25 - Interaction between Passivation and Pourbaix Diagram - II
Link NOC:Corrosion - Part II Lecture 26 - Passivity
Link NOC:Corrosion - Part II Lecture 27 - Interaction of Cathodic Polarization with an Active-Passive Metal
Link NOC:Corrosion - Part II Lecture 28 - Interaction of Anodic Polarization with an Active-Passive Metal
Link NOC:Corrosion - Part II Lecture 29 - Passivation and Mixed Potential Theory: Case Studies
Link NOC:Corrosion - Part II Lecture 30 - Passivation and Mixed Potential Theory: Case Studies (Continued...)
Link NOC:Corrosion - Part II Lecture 31 - Effect of Galvanic Coupling between an Active-Passive Metal and a Noble Metal
Link NOC:Corrosion - Part II Lecture 32 - Anodic Protection of an Active-Passive Metal and an Introduction of Linear Polarization
Link NOC:Corrosion - Part II Lecture 33 - Linear Polarization and Understanding Relative Corrosion Resistance of a Metal
Link NOC:Corrosion - Part II Lecture 34 - Oxidation of Metals and Alloys
Link NOC:Corrosion - Part II Lecture 35 - Different Stages of Oxidation and Pilling Bedworth Ratio
Link NOC:Corrosion - Part II Lecture 36 - Pilling Bedworth Ratio of Different Metal Oxides
Link NOC:Corrosion - Part II Lecture 37 - Thermodynamics of Oxidation
Link NOC:Corrosion - Part II Lecture 38 - Construction of Ellingham Diagram - I
Link NOC:Corrosion - Part II Lecture 39 - Construction of Ellingham Diagram - II
Link NOC:Corrosion - Part II Lecture 40 - Kinetics of Oxidation
Link NOC:Corrosion - Part II Lecture 41 - Oxide Structure and Oxidation Mechanism
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 1 - Outline of the Course
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 2 - Basics of Crystal Structure
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 3 - Basics of Crystallography and Bonding
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 4 - Arrangement of Atoms in Crystal Lattice
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 5 - Structure Formation: Ionic Solids
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 6 - Pauling's Rule and Crystal Structure of Ceramics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 7 - Ceramic Materials: Crystal Structure
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 8 - Defect Chemistry
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 9 - Defect Chemistry: Non-Stoichiometric Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 10 - Concentration and Effect of Intrinsic Impurities
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 11 - Intrinsic and Extrinsic Defects
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 12 - Defect Concentration: Non-Stoichiometric Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 13 - Intrinsic Ionization in Metal Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 14 - Brouwer's Diagram
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 15 - Introduction to Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 16 - Dielectric Displacement and Polarization Mechanism
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 17 - Polarization Mechanisms
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 18 - Dielectric Polarizability - 1
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 19 - Dielectric Polarizability - 2
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 20 - Frequency Dependence of Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 21 - Losses in Dielectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 22 - Frequency Dependence of Dielectric Constant
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 23 - Dipolar Relaxation
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 24 - Debye Equations for Dipolar Relaxation
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 25 - Impedance Spectroscopy
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 26 - Impedance Spectroscopy and Dielectric Breakdown
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 27 - Basics of Non-linear Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 28 - Piezoelectric Effect
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 29 - Pyroelectric Effect and Electrostriction
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 30 - Thermodynamics of Piezoelectric and Pyroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 31 - Basics of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 32 - Ferroelectric Phase Transitions
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 33 - Thermodynamics of Phase Transition in Ferroelectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 34 - Second Order Phase Transition in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 35 - First Order Phase Transition in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 36 - Domain Walls in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 37 - Domain Structure and Properties of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 38 - Phase Diagram and Measurements of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 39 - Principal of Measurements and Applications of Piezoelectric and Pyroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 40 - Applications of Piezoelectric and Pyroelectric Materials
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 1 - Introduction to the Course
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 2 - Basic Material Properties - Stress and Strain Tensor
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 3 - Normal and Shear Stress and Transformation of Axes
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 4 - Transformation of Axes and Principle Stresses
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 5 - True and Engineering Stress and Strain
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 6 - Illustration to True and Engineering Stress and Strain
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 7 - Tensor Notation of Strain
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 8 - Introduction to Elasticity and Elastic Properties
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 9 - Theory of Elasticity
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 10 - Atomic Basis of Elasticity
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 11 - Elasticity of Different Materials, Design of Composites
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 12 - Composites, Anelastic Behaviour
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 13 - Stress-Strain Curve and Anelasticity
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 14 - Mechanism of Anelasticity
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 15 - Relaxation Time and Damping Capacity
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 16 - Plastic Deformation of Materials
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 17 - True and Engineering Stress-Strain Curves
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 18 - Necking Phenomenon During Tension Test
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 19 - Microscopic Mechanism of Plastic Deformation
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 20 - Introduction to Slip
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 21 - Slip Systems
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 22 - Resolved Shear Stress
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 23 - Critical Resolved Shear Stress
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 24 - Theoretical Strength and Role of Dislocations
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 25 - Dislocations and Slip - I
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 26 - Dislocations and Slip - II
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 27 - Dislocations and Peirells Nabarro Stress
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 28 - Dislocation Generation: Frank Read Source
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 29 - Dislocations and Strengthening
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 30 - Strain Hardening
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 31 - Grain Boundary Strengthening
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 32 - Solid Solution Strengthening
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 33 - Precipitation Hardening
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 34 - Electrical Conduction in Metals
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 35 - Free Electron Theory
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 36 - Fermi-Dirac Statistics and Electronic conductivity of Metals
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 37 - Fundamental of Semiconductors
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 38 - Band Theory
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 39 - Intrinsic Semiconductors
Link NOC:Properties of Materials (Nature and Properties of Materials-III) Lecture 40 - Extrinsic Semiconductors
Link NOC:Diffusion in Multicomponent Solids Lecture 1 - Introduction to the Course and Thermodynamics Refresher
Link NOC:Diffusion in Multicomponent Solids Lecture 2 - The Second law of Thermodynamics
Link NOC:Diffusion in Multicomponent Solids Lecture 3 - Application of Second law and Illustration of Intermixing as Irreversible Process
Link NOC:Diffusion in Multicomponent Solids Lecture 4 - Equilibrium, Stability and Phase Diagrams in Single Component Systems
Link NOC:Diffusion in Multicomponent Solids Lecture 5 - Third Law of Thermodynamics and Numerical Examples
Link NOC:Diffusion in Multicomponent Solids Lecture 6 - Thermodynamic Activity and Gibbs Free Energy of Mixing
Link NOC:Diffusion in Multicomponent Solids Lecture 7 - Entropy of mixing of Multicomponent Ideal Solution
Link NOC:Diffusion in Multicomponent Solids Lecture 8 - Regular Solution Model: Application to Ternary System
Link NOC:Diffusion in Multicomponent Solids Lecture 9 - Gibbs Free Energy-Composition Curves, Phase Diagrams and Gibbs Phase rule
Link NOC:Diffusion in Multicomponent Solids Lecture 10 - Exercise: Solution Thermodynamics
Link NOC:Diffusion in Multicomponent Solids Lecture 11 - Driving force for Diffusion, Chemical Potentials and Concentrations
Link NOC:Diffusion in Multicomponent Solids Lecture 12 - Diffusion flux and Frames of Reference
Link NOC:Diffusion in Multicomponent Solids Lecture 13 - Fick’s Law
Link NOC:Diffusion in Multicomponent Solids Lecture 14 - Exercise: Deriving Sigma Cosine for any Cubic Lattice
Link NOC:Diffusion in Multicomponent Solids Lecture 15 - Fick's Law for Multicomponent Diffusion
Link NOC:Diffusion in Multicomponent Solids Lecture 16 - Diffusion Equation and Solution to Steady State Diffusion
Link NOC:Diffusion in Multicomponent Solids Lecture 17 - Conversion of Set of Interdiffusion Coefficients from One Dependent Compared to Another
Link NOC:Diffusion in Multicomponent Solids Lecture 18 - Refresher on Laplace Transform
Link NOC:Diffusion in Multicomponent Solids Lecture 19 - Error Function and Its Laplace transform
Link NOC:Diffusion in Multicomponent Solids Lecture 20 - Instantaneous Planar Source: Solution to Diffusion Equation and Its Applications
Link NOC:Diffusion in Multicomponent Solids Lecture 21 - Solution to Diffusion Equation for Semi-Infinite Slab and Its Application in Carburizing of Steel
Link NOC:Diffusion in Multicomponent Solids Lecture 22 - Solution to Diffusion Equation for Binary Diffusion Couple
Link NOC:Diffusion in Multicomponent Solids Lecture 23 - Solution to Diffusion Equation for Multicomponent Diffusion Couple
Link NOC:Diffusion in Multicomponent Solids Lecture 24 - Nature of Concentration Profiles in Binary and Multicomponent Diffusion Couples
Link NOC:Diffusion in Multicomponent Solids Lecture 25 - Numerical Problems
Link NOC:Diffusion in Multicomponent Solids Lecture 26 - Homogenization of Multicomponent alloys
Link NOC:Diffusion in Multicomponent Solids Lecture 27 - Solution to Diffusion Equation: Periodic Boundary Conditions
Link NOC:Diffusion in Multicomponent Solids Lecture 28 - Energetics of Vacancy Formation
Link NOC:Diffusion in Multicomponent Solids Lecture 29 - Experimental Determination of Enthalpy of Vacancy Formation
Link NOC:Diffusion in Multicomponent Solids Lecture 30 - Mechanisms of Diffusion in Metals and Alloys
Link NOC:Diffusion in Multicomponent Solids Lecture 31 - Point Defects in Intermetallics and Ionic Compounds
Link NOC:Diffusion in Multicomponent Solids Lecture 32 - Diffusion Mechanisms in Intermetallics
Link NOC:Diffusion in Multicomponent Solids Lecture 33 - Theory of Random Walk: Mean Squared Displacement
Link NOC:Diffusion in Multicomponent Solids Lecture 34 - Physical Significance of Diffusivity: Einstein-Smoluchowski Equation
Link NOC:Diffusion in Multicomponent Solids Lecture 35 - Derivation of Correlation Factors in Cubic Crystals by Vacancy Mechanism
Link NOC:Diffusion in Multicomponent Solids Lecture 36 - Correlation Factors for Substitutional Diffusion by Vacancy Mechanism in FCC Crystal
Link NOC:Diffusion in Multicomponent Solids Lecture 37 - Correlation Effects in BCC and Diamond Cubic for Vacancy Mechanism
Link NOC:Diffusion in Multicomponent Solids Lecture 38 - Practice Problems
Link NOC:Diffusion in Multicomponent Solids Lecture 39 - Deriving Relation Between Diffusion Flux and Chemical Potential Gradients
Link NOC:Diffusion in Multicomponent Solids Lecture 40 - Atomic Mobility, Diffusivity and Diffusion Under External Driving Force
Link NOC:Diffusion in Multicomponent Solids Lecture 41 - Non-Ideality as Driving Force
Link NOC:Diffusion in Multicomponent Solids Lecture 42 - Theory of diffusion
Link NOC:Diffusion in Multicomponent Solids Lecture 43 - Experimental Determination of Interdiffusion Coefficients: Boltzmann Matano Analysis
Link NOC:Diffusion in Multicomponent Solids Lecture 44 - Analysis of Interdiffusion Fluxes in Multicomponent Diffusion Couples
Link NOC:Diffusion in Multicomponent Solids Lecture 45 - Various Techniques for Experimental Determination of Multicomponent Interdiffusion Coefficients
Link NOC:Diffusion in Multicomponent Solids Lecture 46 - Experiement Determination of Interdiffusion Coefficients: Examples from Literature
Link NOC:Diffusion in Multicomponent Solids Lecture 47 - Intrinsic Diffusion and Kirkendall Effect
Link NOC:Diffusion in Multicomponent Solids Lecture 48 - Experiemental Determination of Intrinsic Diffusion Coefficients
Link NOC:Diffusion in Multicomponent Solids Lecture 49 - A Brief Introduction to Ternary Phase Diagram
Link NOC:Diffusion in Multicomponent Solids Lecture 50 - Multiphase Diffusion: Diffusion Paths and Diffusion Structures
Link NOC:Diffusion in Multicomponent Solids Lecture 51 - Interdiffusion Analysis of Multiphase Diffusion Couples
Link NOC:Corrosion Failures and Analysis Lecture 1 - An introduction to corrosion failure and analysis
Link NOC:Corrosion Failures and Analysis Lecture 2 - Various forms of corrosion
Link NOC:Corrosion Failures and Analysis Lecture 3 - Discussion of various factors affecting corrosion
Link NOC:Corrosion Failures and Analysis Lecture 4 - Forms of corrosion: Uniform corrosion - Part 1
Link NOC:Corrosion Failures and Analysis Lecture 5 - Forms of corrosion: Uniform corrosion - Part 2
Link NOC:Corrosion Failures and Analysis Lecture 6 - Galvanic corrosion - I
Link NOC:Corrosion Failures and Analysis Lecture 7 - Galvanic corrosion - II
Link NOC:Corrosion Failures and Analysis Lecture 8 - Galvanic corrosion - III
Link NOC:Corrosion Failures and Analysis Lecture 9 - Galvanic corrosion - IV
Link NOC:Corrosion Failures and Analysis Lecture 10 - Importance of galvanic series
Link NOC:Corrosion Failures and Analysis Lecture 11 - Factors associated with galvanic corrosion: Case study 1
Link NOC:Corrosion Failures and Analysis Lecture 12 - Factors associated with galvanic corrosion: Case study 2
Link NOC:Corrosion Failures and Analysis Lecture 13 - Factors associated with galvanic corrosion: Case study 3
Link NOC:Corrosion Failures and Analysis Lecture 14 - Preventive measures and advantages of galvanic corrosion
Link NOC:Corrosion Failures and Analysis Lecture 15 - Dealloying/Selective leaching
Link NOC:Corrosion Failures and Analysis Lecture 16 - Dealloying or selective leaching: Mechanism
Link NOC:Corrosion Failures and Analysis Lecture 17 - Dealloying or selective leaching: Applications and protection methods
Link NOC:Corrosion Failures and Analysis Lecture 18 - Graphitic corrosion and protection from dezincification
Link NOC:Corrosion Failures and Analysis Lecture 19 - Intergranular Corrosion
Link NOC:Corrosion Failures and Analysis Lecture 20 - Intergranular corrosion in case of 304, 321 and 347 stainless steel
Link NOC:Corrosion Failures and Analysis Lecture 21 - Intergranular Corrosion: Sensitization and Weld Decay
Link NOC:Corrosion Failures and Analysis Lecture 22 - Intergranular Corrosion: Control of Sensitization - Weld Decay
Link NOC:Corrosion Failures and Analysis Lecture 23 - Intergranular Corrosion: Knife Line Attack and Prevention Methods
Link NOC:Corrosion Failures and Analysis Lecture 24 - Crevice Corrosion: Introduction
Link NOC:Corrosion Failures and Analysis Lecture 25 - Crevice Corrosion: Mechanism
Link NOC:Corrosion Failures and Analysis Lecture 26 - Crevice corrosion: Mechanism and Various stages
Link NOC:Corrosion Failures and Analysis Lecture 27 - Crevice corrosion: Case studies and Protection methods
Link NOC:Corrosion Failures and Analysis Lecture 28 - Pitting corrosion: Introduction and Case studies
Link NOC:Corrosion Failures and Analysis Lecture 29 - Various conditions favouring pitting corrosion - I
Link NOC:Corrosion Failures and Analysis Lecture 30 - Various conditions favouring pitting corrosion - II
Link NOC:Corrosion Failures and Analysis Lecture 31 - Various conditions favouring pitting corrosion - III
Link NOC:Corrosion Failures and Analysis Lecture 32 - Pitting Corrosion: Mechanism and Protection
Link NOC:Corrosion Failures and Analysis Lecture 33 - Erosion Corrosion: Introduction
Link NOC:Corrosion Failures and Analysis Lecture 34 - Erosion Corrosion: Characteristics
Link NOC:Corrosion Failures and Analysis Lecture 35 - Erosion Corrosion: Protection methods and cavitation corrosion
Link NOC:Corrosion Failures and Analysis Lecture 36 - Cavitation corrosion and its case studies
Link NOC:Corrosion Failures and Analysis Lecture 37 - Cavitation corrosion, Fretting corrosion and their preventive measures
Link NOC:Corrosion Failures and Analysis Lecture 38 - Environmental cracking or stress assisted corrosion failures
Link NOC:Corrosion Failures and Analysis Lecture 39 - Stress corrosion cracking: Mechanism - I
Link NOC:Corrosion Failures and Analysis Lecture 40 - Stress corrosion cracking: Mechanism - II
Link NOC:Corrosion Failures and Analysis Lecture 41 - Stress corrosion cracking: Mechanism - III
Link NOC:Corrosion Failures and Analysis Lecture 42 - Stress corrosion cracking: Corrosion fatigue and protection methods
Link NOC:Nanomaterials and their Properties Lecture 1 - Nanomaterials: An Overview - Part I
Link NOC:Nanomaterials and their Properties Lecture 2 - Nanomaterials: An Overview - Part II
Link NOC:Nanomaterials and their Properties Lecture 3 - Nanomaterials: Hierarchial Nanostructures - I
Link NOC:Nanomaterials and their Properties Lecture 4 - Nanomaterials: Hierarchial Nanostructures - II
Link NOC:Nanomaterials and their Properties Lecture 5 - Nanomaterials: Surfaces and Interfaces - I
Link NOC:Nanomaterials and their Properties Lecture 6 - Nanomaterials: Surfaces and Interfaces - I (Continued...)
Link NOC:Nanomaterials and their Properties Lecture 7 - Nanomaterials: Surfaces - I
Link NOC:Nanomaterials and their Properties Lecture 8 - Nanomaterials: Magic Numbers
Link NOC:Nanomaterials and their Properties Lecture 9 - Thermodynamics of Nanomaterials
Link NOC:Nanomaterials and their Properties Lecture 10 - Surfaces and Interfaces - II
Link NOC:Nanomaterials and their Properties Lecture 11 - Thermodynamics of Nanomaterials
Link NOC:Nanomaterials and their Properties Lecture 12 - Surfaces and Interfaces - II (Continued...)
Link NOC:Nanomaterials and their Properties Lecture 13 - Nanophase Diagrams
Link NOC:Nanomaterials and their Properties Lecture 14 - Effect of Size on Phase Diagrams
Link NOC:Nanomaterials and their Properties Lecture 15 - Synthesis of Nanomaterials
Link NOC:Nanomaterials and their Properties Lecture 16 - Synthesis Routes of Nanomaterials - II
Link NOC:Nanomaterials and their Properties Lecture 17 - Mechanical Properties of Nanomaterials - I
Link NOC:Nanomaterials and their Properties Lecture 18 - Mechanical Properties of Nanomaterials - II
Link NOC:Nanomaterials and their Properties Lecture 19 - Thermal Properties of Nanomaterials - I
Link NOC:Nanomaterials and their Properties Lecture 20 - Thermal Properties of Nanomaterials - II
Link NOC:Nanomaterials and their Properties Lecture 21 - Thermal Properties of Nanomaterials - III
Link NOC:Nanomaterials and their Properties Lecture 22 - Thermal Properties of Nanomaterials - III (Continued...)
Link NOC:Nanomaterials and their Properties Lecture 23 - Electrical Property of Nanomaterials
Link NOC:Nanomaterials and their Properties Lecture 24 - Magnetic Properties of Nanomaterials - I
Link NOC:Nanomaterials and their Properties Lecture 25 - Magnetic Properties of Nanomaterials - II
Link NOC:Nanomaterials and their Properties Lecture 26 - Optical Properties of Nanomaterials - I
Link NOC:Nanomaterials and their Properties Lecture 27 - Optical Properties of Nanomaterials - II
Link NOC:Nanomaterials and their Properties Lecture 28 - Special Cases: Carbon-Based Nanomaterials
Link NOC:Nanomaterials and their Properties Lecture 29 - Special Cases: Polymer-Based Nanomaterials
Link Advanced ceramics for strategic applications Lecture 1 - Introduction
Link Advanced ceramics for strategic applications Lecture 2 - Introduction (Continued...)
Link Advanced ceramics for strategic applications Lecture 3 - Crystal Structure
Link Advanced ceramics for strategic applications Lecture 4 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 5 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 6 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 7 - Defects in crystalline solids
Link Advanced ceramics for strategic applications Lecture 8 - Defects in crystalline solids (Continued...)
Link Advanced ceramics for strategic applications Lecture 9 - Dislocation
Link Advanced ceramics for strategic applications Lecture 10 - Two and Three Dimensional Defects
Link Advanced ceramics for strategic applications Lecture 11 - Electrical Conduction in ceramics
Link Advanced ceramics for strategic applications Lecture 12 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 13 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 14 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 15 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 16 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 17 - Electrical Phenomenon in Insulators
Link Advanced ceramics for strategic applications Lecture 18 - Electrical Phenomenon in Insulators (Continued...)
Link Advanced ceramics for strategic applications Lecture 19 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics
Link Advanced ceramics for strategic applications Lecture 20 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 21 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 22 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 23 - Relaxor Ferroelectric
Link Advanced ceramics for strategic applications Lecture 24 - Superconductivity
Link Advanced ceramics for strategic applications Lecture 25 - Superconductivity (Continued...)
Link Advanced ceramics for strategic applications Lecture 26 - Ceramic Gas Sensor
Link Advanced ceramics for strategic applications Lecture 27 - Ceramic Gas Sensor (Continued...)
Link Advanced ceramics for strategic applications Lecture 28 - Solid Oxide Fuel Cell
Link Advanced ceramics for strategic applications Lecture 29 - Solid Oxide Fuel Cell (Continued...)
Link Advanced ceramics for strategic applications Lecture 30 - Solid Oxide Fuel Cell (Continued...)
Link Advanced ceramics for strategic applications Lecture 31 - Hydrogen Generation through MIEC Reactor
Link Advanced ceramics for strategic applications Lecture 32 - Lithium Ion Battery
Link Advanced ceramics for strategic applications Lecture 33 - Lithium Ion Battery (Continued...)
Link Advanced ceramics for strategic applications Lecture 34 - Magnetic Ceramics
Link Advanced ceramics for strategic applications Lecture 35 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 36 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 37 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 38 - Sintering of Ceramics
Link Advanced ceramics for strategic applications Lecture 39 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 40 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 41 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 42 - Mechanical Properties of Ceramic Materials
Link Advanced ceramics for strategic applications Lecture 43 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 44 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 45 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 46 - Structural Ceramics Materials
Link Advanced ceramics for strategic applications Lecture 47 - Bioceramics
Link Non-ferrous Extractive Metallurgy Lecture 1 - Brief History of Non-ferrous Metal
Link Non-ferrous Extractive Metallurgy Lecture 2 - Brief History of Non-ferrous Metal (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 3 - Sources of Non-ferrous Metal
Link Non-ferrous Extractive Metallurgy Lecture 4 - Mineral Benefication Techniques
Link Non-ferrous Extractive Metallurgy Lecture 5 - General Methods of Metal Extraction
Link Non-ferrous Extractive Metallurgy Lecture 6 - Principles of Carbon Reduction
Link Non-ferrous Extractive Metallurgy Lecture 7 - Principles of Hydrometalling
Link Non-ferrous Extractive Metallurgy Lecture 8 - Principles of Electrometallurgy
Link Non-ferrous Extractive Metallurgy Lecture 9 - Electrometallurgy (Continued...) and Temkin Model for Fused Salts
Link Non-ferrous Extractive Metallurgy Lecture 10 - Refining of Metals - Chemical Methods
Link Non-ferrous Extractive Metallurgy Lecture 11 - Refining of Metals - Physical Methods
Link Non-ferrous Extractive Metallurgy Lecture 12 - Concluding part of Module - 4
Link Non-ferrous Extractive Metallurgy Lecture 13 - Concluding part of Module - 4 (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 14 - Module - 5 Extraction of Metals from Oxides, Extraction of Magnesium
Link Non-ferrous Extractive Metallurgy Lecture 15 - Extraction Aluminium
Link Non-ferrous Extractive Metallurgy Lecture 16 - Extraction Aluminium (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 17 - Extraction Aluminium (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 18 - Extraction Aluminium (Continued...3)
Link Non-ferrous Extractive Metallurgy Lecture 19 - Extraction of Tin
Link Non-ferrous Extractive Metallurgy Lecture 20 - Extraction of Ferro Alloys
Link Non-ferrous Extractive Metallurgy Lecture 21 - Module - 6 Extraction of Metals from Sulphides Extraction of Copper
Link Non-ferrous Extractive Metallurgy Lecture 22 - Extraction of Copper (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 23 - Hydrometallurgy of Copper
Link Non-ferrous Extractive Metallurgy Lecture 24 - Extraction of Lead
Link Non-ferrous Extractive Metallurgy Lecture 25 - Extraction of Zinc-Imperial Smelting Process
Link Non-ferrous Extractive Metallurgy Lecture 26 - Module - 7 Extraction of metals from halides, Extraction of reactor metals
Link Non-ferrous Extractive Metallurgy Lecture 27 - Extraction of reactor metals (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 28 - Extraction of reactor metals (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 29 - Extraction of Titanium
Link Non-ferrous Extractive Metallurgy Lecture 30 - Extraction of Precious Metals
Link Non-ferrous Extractive Metallurgy Lecture 31 - Production of Secondary Metals and Treatment of Wastes
Link Non-ferrous Extractive Metallurgy Lecture 32 - Energy and Environment Related Issues in Nonferrous Metals Production
Link Non-ferrous Extractive Metallurgy Lecture 33 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 34 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 35 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...3)
Link Non-ferrous Extractive Metallurgy Lecture 36 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...4)
Link Non-ferrous Extractive Metallurgy Lecture 37 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...5)
Link Non-ferrous Extractive Metallurgy Lecture 38 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...6)
Link Non-ferrous Extractive Metallurgy Lecture 39 - Nonferrous Metals in India - Unleashing its true potential
Link Non-ferrous Extractive Metallurgy Lecture 40 - Nonferrous Metals in India - Unleashing its true potential (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 41 - Review and Summary
Link Non-ferrous Extractive Metallurgy Lecture 42 - Review and Summary (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 43 - Review and Summary (Continued...2)
Link Principles of Physical Metallurgy Lecture 1 - Introduction
Link Principles of Physical Metallurgy Lecture 2 - Atomic Bond and Crystal Structure
Link Principles of Physical Metallurgy Lecture 3 - Atomic Bond and Crystal Structure (Continued...1)
Link Principles of Physical Metallurgy Lecture 4 - Atomic Bond and Crystal Structure (Continued...2)
Link Principles of Physical Metallurgy Lecture 5 - Experimental Tools & Techniques
Link Principles of Physical Metallurgy Lecture 6 - Experimental Tools & Techniques (Continued...)
Link Principles of Physical Metallurgy Lecture 7 - Solidification of Pure Metal
Link Principles of Physical Metallurgy Lecture 8 - Plastic Deformation of Pure Metal
Link Principles of Physical Metallurgy Lecture 9 - Plastic Deformation of Pure Metal (Continued...)
Link Principles of Physical Metallurgy Lecture 10 - Crystal Defects in Metals
Link Principles of Physical Metallurgy Lecture 11 - Crystal Defects in Metals (Continued...1)
Link Principles of Physical Metallurgy Lecture 12 - Crystal Defects in Metals (Continued...2)
Link Principles of Physical Metallurgy Lecture 13 - Crystal Defects in Metals (Continued...3)
Link Principles of Physical Metallurgy Lecture 14 - Crystal Defects in Metals (Continued...4)
Link Principles of Physical Metallurgy Lecture 15 - Diffusion in Solids
Link Principles of Physical Metallurgy Lecture 16 - Diffusion in Solids (Continued...)
Link Principles of Physical Metallurgy Lecture 17 - Numerical Examples in Diffusion
Link Principles of Physical Metallurgy Lecture 18 - Solidification of Binary Alloys
Link Principles of Physical Metallurgy Lecture 19 - Solidification of Binary Alloys (Continued...1)
Link Principles of Physical Metallurgy Lecture 20 - Solidification of Binary Alloys (Continued...2)
Link Principles of Physical Metallurgy Lecture 21 - Solidification of Binary Alloys (Continued...3)
Link Principles of Physical Metallurgy Lecture 22 - Solidification of Binary Alloys (Continued...4)
Link Principles of Physical Metallurgy Lecture 23 - Iron-Carbon Phase Diagram
Link Principles of Physical Metallurgy Lecture 24 - Iron-Carbon Phase Diagram (Continued...)
Link Principles of Physical Metallurgy Lecture 25 - Ternary Phase Diagram
Link Principles of Physical Metallurgy Lecture 26 - Common Binary Alloys
Link Principles of Physical Metallurgy Lecture 27 - Metal Working : Deformation Processing
Link Principles of Physical Metallurgy Lecture 28 - Metal Working : Deformation Processing (Continued...)
Link Principles of Physical Metallurgy Lecture 29 - Precipitation for Solid Solution
Link Principles of Physical Metallurgy Lecture 30 - Precipitation for Solid Solution (Continued...)
Link Principles of Physical Metallurgy Lecture 31 - Heat Treatment of Steel
Link Principles of Physical Metallurgy Lecture 32 - Heat Treatment of Steel (Continued...1)
Link Principles of Physical Metallurgy Lecture 33 - Heat Treatment of Steel (Continued...2)
Link Principles of Physical Metallurgy Lecture 34 - Heat Treatment of Steel (Continued...3)
Link Principles of Physical Metallurgy Lecture 35 - Heat Treatment of Steel (Continued...4)
Link Principles of Physical Metallurgy Lecture 36 - Heat Treatment of Steel (Continued...5)
Link Principles of Physical Metallurgy Lecture 37 - Surface Hardening
Link Principles of Physical Metallurgy Lecture 38 - Structural Steel
Link Principles of Physical Metallurgy Lecture 39 - Structural Steel (Continued...)
Link Principles of Physical Metallurgy Lecture 40 - Ultra High Strength Steel
Link Principles of Physical Metallurgy Lecture 41 - Preferred Orientation: Application
Link Principles of Physical Metallurgy Lecture 42 - Metal Joining
Link Processing of Semiconducting Materials Lecture 1 - Introduction to Electronics Materials
Link Processing of Semiconducting Materials Lecture 2 - Electrical Conductivity of Materials
Link Processing of Semiconducting Materials Lecture 3 - Direct and Indirect Band Semiconductors
Link Processing of Semiconducting Materials Lecture 4 - Doping in Semiconductors
Link Processing of Semiconducting Materials Lecture 5 - Semiconductor Statistics
Link Processing of Semiconducting Materials Lecture 6 - Importance of Doping
Link Processing of Semiconducting Materials Lecture 7 - Diffusion and Ion Implantation - I
Link Processing of Semiconducting Materials Lecture 8 - Diffusion and Ion Implantation - II
Link Processing of Semiconducting Materials Lecture 9 - Diffusion and Ion Implantation - III
Link Processing of Semiconducting Materials Lecture 10 - Elemental Semiconductors
Link Processing of Semiconducting Materials Lecture 11 - Compound Semiconductors
Link Processing of Semiconducting Materials Lecture 12 - Bulk Crystal Growth - I
Link Processing of Semiconducting Materials Lecture 13 - Bulk Crystal Growth - II
Link Processing of Semiconducting Materials Lecture 14 - Ga As Crystal Growth
Link Processing of Semiconducting Materials Lecture 15 - Defects in Crystals - I
Link Processing of Semiconducting Materials Lecture 16 - Defects in Crystals - II
Link Processing of Semiconducting Materials Lecture 17 - Band Gap Engineering - I
Link Processing of Semiconducting Materials Lecture 18 - Band Gap Engineering - II
Link Processing of Semiconducting Materials Lecture 19 - Chemical Vapour Deposition - I
Link Processing of Semiconducting Materials Lecture 20 - Chemical Vapour Deposition - II
Link Processing of Semiconducting Materials Lecture 21 - MOCVD
Link Processing of Semiconducting Materials Lecture 22 - Molecular Beam Epitaxy - I
Link Processing of Semiconducting Materials Lecture 23 - Molecular Beam Epitaxy - II
Link Processing of Semiconducting Materials Lecture 24 - p - n Junction
Link Processing of Semiconducting Materials Lecture 25 - Carrier Transport in P - N Junction
Link Processing of Semiconducting Materials Lecture 26 - Characterization - I
Link Processing of Semiconducting Materials Lecture 27 - Characterization - II
Link Processing of Semiconducting Materials Lecture 28 - Optical Characterization - I
Link Processing of Semiconducting Materials Lecture 29 - Metal-Semiconductor Contact - I
Link Processing of Semiconducting Materials Lecture 30 - Metal-Semiconductor Contact - II
Link Processing of Semiconducting Materials Lecture 31 - Applications of Metal-Semiconductor Contact
Link Processing of Semiconducting Materials Lecture 32 - Oxidation - I
Link Processing of Semiconducting Materials Lecture 33 - Oxidation - II
Link Processing of Semiconducting Materials Lecture 34 - Different Types of Semiconductor - I
Link Processing of Semiconducting Materials Lecture 35 - Oxidation - I
Link Processing of Semiconducting Materials Lecture 36 - Oxidation - II
Link Processing of Semiconducting Materials Lecture 37 - Dielectric Films
Link Processing of Semiconducting Materials Lecture 38 - Low - K and High - K materials
Link Processing of Semiconducting Materials Lecture 39 - Metallization
Link Processing of Semiconducting Materials Lecture 40 - Materials for Photovoltaics
Link Science and Technology of Polymers Lecture 1 - Basic Concepts on Polymers
Link Science and Technology of Polymers Lecture 2 - Basic Concepts on Polymers (Continued...)
Link Science and Technology of Polymers Lecture 3 - Basic Concepts on Polymers (Continued...)
Link Science and Technology of Polymers Lecture 4 - Polymer Raw Materials
Link Science and Technology of Polymers Lecture 5 - Principles of Polymer Synthesis
Link Science and Technology of Polymers Lecture 6 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 7 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 8 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 9 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 10 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 11 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 12 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 13 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 14 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 15 - Polymerization Techniques
Link Science and Technology of Polymers Lecture 16 - Polymerization Techniques (Continued...)
Link Science and Technology of Polymers Lecture 17 - Polymerization Techniques (Continued...)
Link Science and Technology of Polymers Lecture 18 - Polymer Products
Link Science and Technology of Polymers Lecture 19 - Polymer Products (Continued...)
Link Science and Technology of Polymers Lecture 20 - Rubber Products
Link Science and Technology of Polymers Lecture 21 - Rubber Products (Continued...)
Link Science and Technology of Polymers Lecture 22 - Conducting Polymers
Link Science and Technology of Polymers Lecture 23 - Conducting Polymers (Continued...)
Link Science and Technology of Polymers Lecture 24 - Liquid Crystalline Polymers
Link Science and Technology of Polymers Lecture 25 - Stimuli Responsive Polymer and its application
Link Science and Technology of Polymers Lecture 26 - Stimuli Responsive Polymer and its application (Continued...)
Link Science and Technology of Polymers Lecture 27 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 28 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 29 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 30 - Environmental Degradation of Polymers
Link Science and Technology of Polymers Lecture 31 - Environmental Degradation of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 32 - Polymer Composites
Link Science and Technology of Polymers Lecture 33 - Polymer Composites (Continued...)
Link Science and Technology of Polymers Lecture 34 - Polymer Composites (Continued...)
Link Science and Technology of Polymers Lecture 35 - Multicomponent Polymeric Materials
Link Science and Technology of Polymers Lecture 36 - Multicomponent Polymeric Materials (Continued...)
Link Science and Technology of Polymers Lecture 37 - Multicomponent Polymeric Materials (Continued...)
Link Science and Technology of Polymers Lecture 38 - Viscoelasticity
Link Science and Technology of Polymers Lecture 39 - Engineering and Speciality Polymers
Link Science and Technology of Polymers Lecture 40 - Engineering and Speciality Polymers (Continued...)
Link Advanced Materials and Processes Lecture 1 - Structure of Materials - Part I
Link Advanced Materials and Processes Lecture 2 - Structure of Materials - Part II
Link Advanced Materials and Processes Lecture 3 - Nano Crystalline Materials - Part I
Link Advanced Materials and Processes Lecture 4 - Nano Crystalline Materials - Part II
Link Advanced Materials and Processes Lecture 5 - Nano Crystalline Materials - Part III
Link Advanced Materials and Processes Lecture 6 - Nano Crystalline Materials - Part IV
Link Advanced Materials and Processes Lecture 7 - Amorphous Materials - Part I
Link Advanced Materials and Processes Lecture 8 - Amorphous Materials - Part II
Link Advanced Materials and Processes Lecture 9 - Amorphous Materials - Part III
Link Advanced Materials and Processes Lecture 10 - Amorphous Materials - Part IV
Link Advanced Materials and Processes Lecture 11 - Amorphous Materials - Part V
Link Advanced Materials and Processes Lecture 12 - Quasicrystals - Part I
Link Advanced Materials and Processes Lecture 13 - Quasicrystals - Part II
Link Advanced Materials and Processes Lecture 14 - Nano Quasicrystals - Part I
Link Advanced Materials and Processes Lecture 15 - Nano Quasicrystals - Part II
Link Advanced Materials and Processes Lecture 16 - Rapid Solidification Processing
Link Advanced Materials and Processes Lecture 17 - Mechanical Alloying
Link Advanced Materials and Processes Lecture 18 - Advanced AI Alloys - Part I
Link Advanced Materials and Processes Lecture 19 - Advanced AI Alloys - Part II
Link Advanced Materials and Processes Lecture 20 - Advanced AI Alloys - Part III
Link Advanced Materials and Processes Lecture 21 - Advanced AI Alloys - Part IV and Ti Alloys
Link Advanced Materials and Processes Lecture 22 - Shape Memory Alloys
Link Advanced Materials and Processes Lecture 23 - Strengthening Mechanisms - Part I
Link Advanced Materials and Processes Lecture 24 - Strengthening Mechanisms - Part II
Link Advanced Materials and Processes Lecture 25 - Superalloys
Link Advanced Materials and Processes Lecture 26 - In-Situ Composites - Part I
Link NOC:Principles of Polymer Synthesis Lecture 1 - Historical development of polymer science
Link NOC:Principles of Polymer Synthesis Lecture 2 - Molecular Weight Determination Of Polymers
Link NOC:Principles of Polymer Synthesis Lecture 3 - Molecular Weight Determination Of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 4 - Molecular Weight Determination of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 5 - Molecular Weight Determination of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 6 - Principles of step growth polymerization
Link NOC:Principles of Polymer Synthesis Lecture 7 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 8 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 9 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 10 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 11 - Principles of radical chain polymerization
Link NOC:Principles of Polymer Synthesis Lecture 12 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 13 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 14 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 15 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 16 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 17 - Principles of Chain Copolymerization
Link NOC:Principles of Polymer Synthesis Lecture 18 - Principles of Chain Copolymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 19 - Principles of Chain Copolymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 20 - Principles of Living Chain polymerization
Link NOC:Principles of Polymer Synthesis Lecture 21 - Principles of Living Chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 22 - Design of Chemical Reactors
Link NOC:Principles of Polymer Synthesis Lecture 23 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 24 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 25 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 26 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 27 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 28 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 29 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 30 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 31 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 32 - Synthesis of industrial polymers
Link NOC:Principles of Polymer Synthesis Lecture 33 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 34 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 35 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 36 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 37 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 38 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 39 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 40 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 41 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 42 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 43 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 44 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 45 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 46 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 47 - Synthesis of industrial polymers (Continued...)
Link NOC:Advanced Materials and Processes Lecture 1 - Introduction
Link NOC:Advanced Materials and Processes Lecture 2 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 3 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 4 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 5 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 6 - Bulk Metallic Glass, Glassy and Amorphous Materials
Link NOC:Advanced Materials and Processes Lecture 7 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 8 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 9 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 10 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 11 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 12 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 13 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 14 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 15 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 16 - Shape Memory Alloys
Link NOC:Advanced Materials and Processes Lecture 17 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 18 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 19 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 20 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 21 - Shape Memory Alloys: Case Studies and Applications
Link NOC:Advanced Materials and Processes Lecture 22 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 23 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 24 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 25 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 26 - Introduction of High Temperature Materials
Link NOC:Advanced Materials and Processes Lecture 27 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 28 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 29 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 30 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 31 - Supearalloys
Link NOC:Advanced Materials and Processes Lecture 32 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 33 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 34 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 35 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 36 - Nanomaterials: Part I
Link NOC:Advanced Materials and Processes Lecture 37 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 38 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 39 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 40 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 41 - Nanomaterials: Part II
Link NOC:Advanced Materials and Processes Lecture 42 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 43 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 44 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 45 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 46 - Soft and Hard Magnetic Materials
Link NOC:Advanced Materials and Processes Lecture 47 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 48 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 49 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 50 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 51 - Advanced Processes
Link NOC:Advanced Materials and Processes Lecture 52 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 53 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 54 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 55 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 56 - Advanced Functional Alloys
Link NOC:Advanced Materials and Processes Lecture 57 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 58 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 59 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 60 - Advanced Functional Alloys (Continued...)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 1 - Structure of Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 2 - Microstructure of Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 3 - Defects in Crystalline Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 4 - Surface and Surface Energy
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 5 - Surface Properties-due to mechanical activation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 6 - Surface dependent physical and chemical property
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 7 - Surface Dependent Properties and Surface initiated Degradation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 8 - Fatigue
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 9 - Wear Part - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 10 - Wear Part - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 11 - Wear Part - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 12 - Corrosion - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 13 - Corrosion - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 14 - Corrosion - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 15 - Corrosion - IV
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 16 - Corrosion - V
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 17 - Classification of Surface engineering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 18 - Strengthening of metals
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 19 - Strengthening of Non-Metals
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 20 - Diffusive transformation in Steel
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 21 - Non-Diffusive transformation in Steel
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 22 - Shot Peening
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 23 - Shot Peening and Rolling
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 24 - Flame Hardening and Induction Hardening
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 25 - Case Carburizing
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 26 - Liquid Carburizing and Gas Carburizing
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 27 - Gas Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 28 - Liquid and Salt Bath Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 29 - Plasma Nitriding and Ion Implantation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 30 - Heat treatment after carburizing and Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 31 - Diffusion Coating Principle
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 32 - Diffusion Coating Processes
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 33 - Thick Coating by Cladding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 34 - High Temperature Degradation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 35 - Corrosion Prevention
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 36 - Chemical Conversion Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 37 - Electroconversion Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 38 - Electro and Electroless Deposition Process
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 39 - Hot Dipping - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 40 - Hot Dipping - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 41 - Thermal Spray Deposition - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 42 - Thermal Spray Deposition - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 43 - Thermal Spray Deposition - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 44 - Thermal Spray Deposition - IV
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 45 - Physical Vapur Deposition (PVD)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 46 - Sputtering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 47 - Chemical Vapor Deposition (CVD)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 48 - Composite Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 49 - Ion Implantation - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 50 - Ion Implantation - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 51 - Electron Beam Welding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 52 - Electron Beam Surface engineering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 53 - Laser Materials Processing: Introduction
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 54 - Laser Assisted Materials Processing:Processes
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 55 - Laser Surface Engineering:Hardening and Melting
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 56 - Laser Surface Engineering with Laser surface hardening and laser surface melting
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 57 - Laser Surface Alloying
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 58 - Laser Surface Cladding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 59 - Surface Damage - Case Studies
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 60 - Overview and Conclusion
Link NOC:Ironmaking and Steelmaking Lecture 1 - Introduction
Link NOC:Ironmaking and Steelmaking Lecture 2 - Various Routes of steelmaking
Link NOC:Ironmaking and Steelmaking Lecture 3 - The Iron Blast Furnace
Link NOC:Ironmaking and Steelmaking Lecture 4 - Thermodynamics of BF ironmaking
Link NOC:Ironmaking and Steelmaking Lecture 5 - Thermodynamics of BF Ironmaking (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 6 - Overall Heat and Material Balance in Blast Furnace
Link NOC:Ironmaking and Steelmaking Lecture 7 - RIST Diagram based on overall heat and material balance
Link NOC:Ironmaking and Steelmaking Lecture 8 - RIST Diagram based on heat and material balance in the Wustite Reserve Zone
Link NOC:Ironmaking and Steelmaking Lecture 9 - Kinetics of gas solid reaction: Iron oxide reduction - Part 1
Link NOC:Ironmaking and Steelmaking Lecture 10 - Kinetics of gas solid reaction: Iron oxide reduction - Part 2
Link NOC:Ironmaking and Steelmaking Lecture 11 - Aerodynamics in Blast Furnace - Part 1
Link NOC:Ironmaking and Steelmaking Lecture 12 - Aerodynamics in Blast Furnace - Part 2: Channeling
Link NOC:Ironmaking and Steelmaking Lecture 13 - Aerodynamics in Blast Furnace - Part 3: Flooding
Link NOC:Ironmaking and Steelmaking Lecture 14 - Coke rate and Fuel efficiency in Blast Furnace
Link NOC:Ironmaking and Steelmaking Lecture 15 - oxygen enrichment of blast
Link NOC:Ironmaking and Steelmaking Lecture 16 - Blast Furnace and it's Raw Material
Link NOC:Ironmaking and Steelmaking Lecture 17 - Sintering of Iron Ore
Link NOC:Ironmaking and Steelmaking Lecture 18 - Pelletization of Iron Ore
Link NOC:Ironmaking and Steelmaking Lecture 19 - Coking Process
Link NOC:Ironmaking and Steelmaking Lecture 20 - Testing of Burden Material
Link NOC:Ironmaking and Steelmaking Lecture 21 - Burden Distribution
Link NOC:Ironmaking and Steelmaking Lecture 22 - Blast Furnace products and their utilization
Link NOC:Ironmaking and Steelmaking Lecture 23 - Blast Furnace Productivity
Link NOC:Ironmaking and Steelmaking Lecture 24 - Modeling of Blast Furnace
Link NOC:Ironmaking and Steelmaking Lecture 25 - New Potential Technologies for Blast Furnace
Link NOC:Ironmaking and Steelmaking Lecture 26 - History of Steelmaking
Link NOC:Ironmaking and Steelmaking Lecture 27 - Properties of slag
Link NOC:Ironmaking and Steelmaking Lecture 28 - The Reaction Equilibria Unlisted
Link NOC:Ironmaking and Steelmaking Lecture 29 - Dephosphorization of liquid steel
Link NOC:Ironmaking and Steelmaking Lecture 30 - Kinetics of slag metal reaction
Link NOC:Ironmaking and Steelmaking Lecture 31 - LD steelmaking: Basics, process steps, emulsion formation and stabilization
Link NOC:Ironmaking and Steelmaking Lecture 32 - LD Steel making: Oxygen lance and jet action and decarburization
Link NOC:Ironmaking and Steelmaking Lecture 33 - Evolution of impurities in steel and slag constituents during LD processing
Link NOC:Ironmaking and Steelmaking Lecture 34 - Hybrid Processes
Link NOC:Ironmaking and Steelmaking Lecture 35 - Electric steel making
Link NOC:Ironmaking and Steelmaking Lecture 36 - Secondary Steel making: Introduction and de-oxidation
Link NOC:Ironmaking and Steelmaking Lecture 37 - Secondary Steel making: Introduction and de-oxidation (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 38 - Secondary Steel making: Vacuum Techniques for refining steel
Link NOC:Ironmaking and Steelmaking Lecture 39 - Homogenization and Gas stirred ladle
Link NOC:Ironmaking and Steelmaking Lecture 40 - Ladle de-sulphurization, alloying, stainless steel making
Link NOC:Ironmaking and Steelmaking Lecture 41 - Inclusion and its control
Link NOC:Ironmaking and Steelmaking Lecture 42 - Injection Metallurgy: Submerged injection of calcium powder
Link NOC:Ironmaking and Steelmaking Lecture 43 - Cored wire injection-Modeling, melting sequence, effect of operating parameters
Link NOC:Ironmaking and Steelmaking Lecture 44 - IM: Cored wire injection: Industrial implications
Link NOC:Ironmaking and Steelmaking Lecture 45 - IM: Tundish metallurgy and design
Link NOC:Ironmaking and Steelmaking Lecture 46 - Casting fundamentals- Heat Transfer
Link NOC:Ironmaking and Steelmaking Lecture 47 - Casting fundamentals- segregation
Link NOC:Ironmaking and Steelmaking Lecture 48 - Morphology of solidification structure and Ingot casting
Link NOC:Ironmaking and Steelmaking Lecture 49 - Continuous casting
Link NOC:Ironmaking and Steelmaking Lecture 50 - Downstream processing and near net shape casting
Link NOC:Ironmaking and Steelmaking Lecture 51 - Introduction to Direct Reduction (DR) and smelting Reduction (SR) Processes
Link NOC:Ironmaking and Steelmaking Lecture 52 - Introduction to Direct Reduction (DR) and smelting Reduction (SR) Processes (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 53 - Coal Based DR Processes
Link NOC:Ironmaking and Steelmaking Lecture 54 - Coal Based DR Processes (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 55 - Gas based DR Processes
Link NOC:Ironmaking and Steelmaking Lecture 56 - Gas based DR Processes (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 57 - Smelting Reduction (SR) Processes
Link NOC:Ironmaking and Steelmaking Lecture 58 - Smelting Reduction (SR) Processes (Continued...)
Link NOC:Ironmaking and Steelmaking Lecture 59 - Ironmaking and Steelmaking in India
Link NOC:Ironmaking and Steelmaking Lecture 60 - Ironmaking and Steelmaking in India (Continued...)
Link NOC:Non-Metallic Materials Lecture 1 - Classification and applications of non-metallic materials
Link NOC:Non-Metallic Materials Lecture 2 - Understanding on polymer structures
Link NOC:Non-Metallic Materials Lecture 3 - Characteristics of polymers and advanced polymeric materials
Link NOC:Non-Metallic Materials Lecture 4 - Processing of polymers
Link NOC:Non-Metallic Materials Lecture 5 - Polymer composites and issues related to recycling
Link NOC:Non-Metallic Materials Lecture 6 - Defects in crystalline materials:point, line, planar and three dimensional defects
Link NOC:Non-Metallic Materials Lecture 7 - Non- stoichiometry in non-metallic materials
Link NOC:Non-Metallic Materials Lecture 8 - Laws of thermodynamics, reaction kinetics - Part 1
Link NOC:Non-Metallic Materials Lecture 9 - Laws of thermodynamics, reaction kinetics - Part 2
Link NOC:Non-Metallic Materials Lecture 10 - Phase diagram and microstructure evolution in non-metallic materials
Link NOC:Non-Metallic Materials Lecture 11 - Carbonaceous materials
Link NOC:Non-Metallic Materials Lecture 12 - Fundamental of diffusion, Fick’s laws, their solution and applications - Part 1
Link NOC:Non-Metallic Materials Lecture 13 - Fundamental of diffusion, Fick’s laws, their solution and applications - Part 2
Link NOC:Non-Metallic Materials Lecture 14 - Phase transformation of non-metallic materials
Link NOC:Non-Metallic Materials Lecture 15 - Introduction to glass and amorphous solids
Link NOC:Non-Metallic Materials Lecture 16 - Understanding on conventional glass and amorphous solids
Link NOC:Non-Metallic Materials Lecture 17 - Glass-ceramics and specialty glasses
Link NOC:Non-Metallic Materials Lecture 18 - Mechanical properties of non-metallic materials, stress-strain response, elastic, and plastic deformation
Link NOC:Non-Metallic Materials Lecture 19 - Brittle and ductile materials, introduction to fracture mechanics, strength of brittle materials
Link NOC:Non-Metallic Materials Lecture 20 - Strengthening of materials, fatigue, and creep
Link NOC:Non-Metallic Materials Lecture 21 - Composite materials: Particle-reinforced composites, and fiber reinforced composites
Link NOC:Non-Metallic Materials Lecture 22 - Structural Composite
Link NOC:Non-Metallic Materials Lecture 23 - Dielectric and piezoelectric behavior
Link NOC:Non-Metallic Materials Lecture 24 - Ferroelectric Behaviour of Non-Metallic Materials and Ferroelectric thin film for Non-Volatile Memory Applications
Link NOC:Non-Metallic Materials Lecture 25 - Magnetic Properties : Origin of Magnetism, Para, Dia, Ferro, and Ferrimagnetism
Link NOC:Non-Metallic Materials Lecture 26 - Ceramic Magnets and their Applications
Link NOC:Non-Metallic Materials Lecture 27 - Thermal Properties : Specific Heat, Heat Conduction, Thermal Diffusivity, Thermal expansion
Link NOC:Non-Metallic Materials Lecture 28 - Thermoelectric Effect and Magnetocaloric Effect
Link NOC:Non-Metallic Materials Lecture 29 - Optical properties: Refractive index, absorption and transmission of electromagnetic radiation, LASERS
Link NOC:Non-Metallic Materials Lecture 30 - Introduction to electrochemistry, Galvanic cells, Cell potentials and Gibbs Energy, Concentration dependence
Link NOC:Non-Metallic Materials Lecture 31 - Electrochemical storage, rechargeable batteries
Link NOC:Non-Metallic Materials Lecture 32 - Introduction to electrochemical methods; cyclic voltammetry and other related techniques
Link NOC:Non-Metallic Materials Lecture 33 - Fuel Cell and Energy harvesting
Link NOC:Non-Metallic Materials Lecture 34 - Preparation of ceramic powders: auto-combustion, sol-gel synthesis, microwave assisted hydrothermal synthesis
Link NOC:Non-Metallic Materials Lecture 35 - Introduction to sintering, sintering mechanism
Link NOC:Non-Metallic Materials Lecture 36 - Solid-state sintering and microstructure development
Link NOC:Non-Metallic Materials Lecture 37 - Solid-state sintering and microstructure development (Continued...)
Link NOC:Non-Metallic Materials Lecture 38 - Liquid phase sintering and microstructure development, speciality sintering, reactive sintering
Link NOC:Non-Metallic Materials Lecture 39 - Processing of glass and amorphous/non-crystalline solids
Link NOC:Non-Metallic Materials Lecture 40 - Fundamental of thin film growth, growth mechanism and kinetics
Link NOC:Non-Metallic Materials Lecture 41 - Thin film growth techniques, thermal evaporation, CVD, sputtering, CSD
Link NOC:Non-Metallic Materials Lecture 42 - Fundamentals and processing of conducting and semiconducting ceramic devices
Link NOC:Non-Metallic Materials Lecture 43 - Processing of ceramics devices
Link NOC:Non-Metallic Materials Lecture 44 - Organic electronic materials: conducting polymers, semi-conducting organic materials, applications
Link NOC:Non-Metallic Materials Lecture 45 - Thermal analyses
Link NOC:Non-Metallic Materials Lecture 46 - Introduction of spectroscopic technique : UV-VIS spectroscopy
Link NOC:Non-Metallic Materials Lecture 47 - Infra-red and Raman spectroscopy
Link NOC:Non-Metallic Materials Lecture 48 - Optical and scanning electron microscopy
Link NOC:Non-Metallic Materials Lecture 49 - X-ray photoelectron spectroscopy
Link NOC:Non-Metallic Materials Lecture 50 - Measurement of mechanical properties, fracture toughness, MOR, hardness
Link NOC:Non-Metallic Materials Lecture 51 - Ferroelectric thin film: synthesis and characterization
Link NOC:Non-Metallic Materials Lecture 52 - Thermal analysis techniques: Differential scanning calorimetry and thermogravimetry
Link NOC:Non-Metallic Materials Lecture 53 - Measurement of optical properties
Link NOC:Non-Metallic Materials Lecture 54 - Novel ferroic composites: Synthesis and measurement
Link NOC:Non-Metallic Materials Lecture 55 - Fundamentals of corrosion, corrosion of materials
Link NOC:Non-Metallic Materials Lecture 56 - Oxidation, corrosion of ceramic materials, degradation of polymers: swelling and dissolution, bond rupture, weathering
Link NOC:Non-Metallic Materials Lecture 57 - Ceramics in biology and medicine
Link NOC:Non-Metallic Materials Lecture 58 - Design of Ceramics
Link NOC:Non-Metallic Materials Lecture 59 - Finishing of Ceramics
Link NOC:Non-Metallic Materials Lecture 60 - Fly-ash based glazed wall tiles: A case study
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 1 - Introduction to Microscopy
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 2 - Scanning Electron Microscopy
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 3 - SEM and Its Capabilities
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 4 - Main Components of SEM - Electron Guns
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 5 - Main Components of SEM - Electron Guns and Electromagnetic Lenses
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 6 - Electron Probe Diameter Verses Electron Probe Current
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 7 - Electron Beam - Specimen Interaction
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 8 - Detectors
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 9 - BSE Detector and Sample Preparation for SEM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 10 - Parameters Need to be Considered to obtain a Good SEM Image
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 11 - How to Get a Good SEM Image
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 12 - Additional Capabilities of SEM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 13 - Additional Capabilities of SEM (Continued...)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 14 - Additional Capabilities of SEM (Continued...)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 15 - Scanning Ion Microscopy - An Introduction
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 16 - Ions Versus Electrons as Source for Microscopy
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 17 - Ions Source in HIM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 18 - GFIS Properties and Ion Optical Column
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 19 - Ion Optical Column
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 20 - Ion-Solid Interactions and Signal Generation
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 21 - Signal Generation and Contrast Mechanism
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 22 - Contrast Mechanism and Imaging Modes
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 23 - Scanning Transmission Ion Microscopy and Microanalysis with HIM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 24 - Creation and Modification of Materials by HIM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 25 - Introduction to Scanning Probe Microscopy
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 26 - STM Instrumentation
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 27 - Main Components of STM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 28 - Main Components of STM (Continued...)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 29 - Main Components of STM (Continued...)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 30 - Working Principle of STM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 31 - Operating Modes
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 32 - Scanning Tunneling Spectroscopy
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 33 - SPM - Atomic Force Microscopy (AFM)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 34 - Force Between Tip and Sample in AFM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 35 - Atomic Force Microscope - Parts
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 36 - Modes of AFM Operation
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 37 - Modes of AFM Operation (Continued...)
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 38 - AFM Imaging
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 39 - Phase Imaging, Noises and Resolution
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 40 - Surface Properties Measurements using Other Forces
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 41 - Surface Properties Measurements using AFM
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 42 - Manipulation of Atoms, Molecules and Industrial Applications
Link NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization Lecture 43 - Summary
Link NOC:Techniques of Material Characterization Lecture 1 - Introduction to the course and basic principles of image formation
Link NOC:Techniques of Material Characterization Lecture 2 - Image formation, resolution, magnification, depth of field and depth of focus
Link NOC:Techniques of Material Characterization Lecture 3 - Aberrations in microscopy: General concepts
Link NOC:Techniques of Material Characterization Lecture 4 - Introduction, types and image formation in Optical microscopy
Link NOC:Techniques of Material Characterization Lecture 5 - Components of optical microscope
Link NOC:Techniques of Material Characterization Lecture 6 - Bright field and Dark field modes
Link NOC:Techniques of Material Characterization Lecture 7 - Phase contrast optical microscopy
Link NOC:Techniques of Material Characterization Lecture 8 - Polarized light microscopy
Link NOC:Techniques of Material Characterization Lecture 9 - Differential interference contrast
Link NOC:Techniques of Material Characterization Lecture 10 - Fluorescence microscopy
Link NOC:Techniques of Material Characterization Lecture 11 - Basic components of electron microscope
Link NOC:Techniques of Material Characterization Lecture 12 - Basic components of electron microscope (Continued...)
Link NOC:Techniques of Material Characterization Lecture 13 - Basic components of electron microscope (Continued...)
Link NOC:Techniques of Material Characterization Lecture 14 - Electron-material interaction
Link NOC:Techniques of Material Characterization Lecture 15 - Electron-material interaction (Continued...)
Link NOC:Techniques of Material Characterization Lecture 16 - Electron-material interaction (Continued...) and Image formation and contrast generation
Link NOC:Techniques of Material Characterization Lecture 17 - Modes of TEM (BF and DF)
Link NOC:Techniques of Material Characterization Lecture 18 - Modes of TEM
Link NOC:Techniques of Material Characterization Lecture 19 - Modes of TEM (Continued...) and Electron diffraction in TEM
Link NOC:Techniques of Material Characterization Lecture 20 - Electron diffraction in TEM
Link NOC:Techniques of Material Characterization Lecture 21 - Electron diffraction in TEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 22 - Electron diffraction in TEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 23 - Electron diffraction in TEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 24 - Electron diffraction in TEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 25 - Application of Electron diffraction
Link NOC:Techniques of Material Characterization Lecture 26 - Signal generation in SEM
Link NOC:Techniques of Material Characterization Lecture 27 - Signal generation in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 28 - Signal generation in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 29 - Signal generation in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 30 - Signal generation in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 31 - Basic components of SEM
Link NOC:Techniques of Material Characterization Lecture 32 - Basic components of SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 33 - Optics of SEM
Link NOC:Techniques of Material Characterization Lecture 34 - Optics of SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 35 - Optics of SEM (Continued...) and analytical detectors
Link NOC:Techniques of Material Characterization Lecture 36 - Analytical detectors in SEM
Link NOC:Techniques of Material Characterization Lecture 37 - Analytical (WDS) detector and contrast formation in SEM
Link NOC:Techniques of Material Characterization Lecture 38 - Imaging in SEM
Link NOC:Techniques of Material Characterization Lecture 39 - Imaging in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 40 - Imaging in SEM (Continued...)
Link NOC:Techniques of Material Characterization Lecture 41 - Imaging in SEM and X-ray diffraction
Link NOC:Techniques of Material Characterization Lecture 42 - Continuous and characteristics X-ray spectrum
Link NOC:Techniques of Material Characterization Lecture 43 - Characteristics X-ray radiation
Link NOC:Techniques of Material Characterization Lecture 44 - Characteristics X-ray radiation (Continued...) and X-ray absorption
Link NOC:Techniques of Material Characterization Lecture 45 - X-ray absorption (Continued...)
Link NOC:Techniques of Material Characterization Lecture 46 - X-ray absorption and filters
Link NOC:Techniques of Material Characterization Lecture 47 - Intensity of diffracted beam
Link NOC:Techniques of Material Characterization Lecture 48 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 49 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 50 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 51 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 52 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 53 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 54 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 55 - Intensity of diffracted beam (Continued...)
Link NOC:Techniques of Material Characterization Lecture 56 - Intensity of diffracted beam (Continued...) and X-ray diffraction profile and analysis
Link NOC:Techniques of Material Characterization Lecture 57 - X-ray diffraction profile and analysis
Link NOC:Techniques of Material Characterization Lecture 58 - X-ray diffraction profile and analysis (Continued...)
Link NOC:Techniques of Material Characterization Lecture 59 - X-ray diffraction profile and analysis (Continued...)
Link NOC:Techniques of Material Characterization Lecture 60 - Electron backscatter diffraction (EBSD)
Link NOC:Electrochemical Energy Storage Lecture 1 - Fundamentals of electrochemistry, definition of primary and secondary batteries
Link NOC:Electrochemical Energy Storage Lecture 2 - Primary batteries and Secondary batteries
Link NOC:Electrochemical Energy Storage Lecture 3 - Supercapacitors
Link NOC:Electrochemical Energy Storage Lecture 4 - Concepts of thermodynamics pertinent to electrochemical cells
Link NOC:Electrochemical Energy Storage Lecture 5 - Kinetics of electrochemical cells and structural characteristics of electrodes
Link NOC:Electrochemical Energy Storage Lecture 6 - Introduction to EMF, redox potential, Faraday law and Nernst’s law
Link NOC:Electrochemical Energy Storage Lecture 7 - Terminology related to secondary battery : half-cell,full-cell, redox couple,positive
Link NOC:Electrochemical Energy Storage Lecture 8 - Measurements: Cyclic voltammetry, nominal voltage, capacity, rate performance
Link NOC:Electrochemical Energy Storage Lecture 9 - Impedance spectroscopy measurement and analyses
Link NOC:Electrochemical Energy Storage Lecture 10 - Measurement of rechargeable cell: Case study
Link NOC:Electrochemical Energy Storage Lecture 11 - History and categories of lithium batteries
Link NOC:Electrochemical Energy Storage Lecture 12 - Operational mechanisms for lithium batteries: Intercalation materials, alloys
Link NOC:Electrochemical Energy Storage Lecture 13 - Differences of voltage profiles between intercalation materials, alloys, and conversion
Link NOC:Electrochemical Energy Storage Lecture 14 - Properties of electrode materials (Case study: alloy as anode)
Link NOC:Electrochemical Energy Storage Lecture 15 - Properties of electrode materials (conversion type oxide as case study)
Link NOC:Electrochemical Energy Storage Lecture 16 - Positive electrodes: Lithiated transition metal oxides, lithiated iron oxyphosphates etc
Link NOC:Electrochemical Energy Storage Lecture 17 - Negative electrodes: Carbonaceous materials, lithium titanium oxides etc
Link NOC:Electrochemical Energy Storage Lecture 18 - Electrolyte :Liquid Electrolyte, Polymer Electrolyte
Link NOC:Electrochemical Energy Storage Lecture 19 - Current Collector, Conductive Agents, Separator and Other Accessories
Link NOC:Electrochemical Energy Storage Lecture 20 - Novel materials for lithium ion rechargeable cells
Link NOC:Electrochemical Energy Storage Lecture 21 - Principle of Operation of Commerical Cells : viz. C - NMC, C - NCA etc
Link NOC:Electrochemical Energy Storage Lecture 22 - Principle of operation of commercial cells
Link NOC:Electrochemical Energy Storage Lecture 23 - Major characteristics of commercial Li ion cells: Cell performance,degradation phenomena
Link NOC:Electrochemical Energy Storage Lecture 24 - Fabrication of Li ion cell: Cylindrical configuration
Link NOC:Electrochemical Energy Storage Lecture 25 - Fabrication of Li ion cell: Pouch and prismatic cell
Link NOC:Electrochemical Energy Storage Lecture 26 - Positive electrodes: Layered oxide, polyanionic compounds (phosphates, sulphates etc)
Link NOC:Electrochemical Energy Storage Lecture 27 - Negative electrodes: Carbonaceous materials, alloy based and other materials
Link NOC:Electrochemical Energy Storage Lecture 28 - Electrolytes: Roles and requirements, organic electrolyte, ionic liquid electrolyte
Link NOC:Electrochemical Energy Storage Lecture 29 - Performance of Na ion rechargeable cell
Link NOC:Electrochemical Energy Storage Lecture 30 - Future perspective of Na ion cells
Link NOC:Electrochemical Energy Storage Lecture 31 - Introduction to battery module, BMS, thermal management and pack design
Link NOC:Electrochemical Energy Storage Lecture 32 - Degradation and safety issues of Li ion rechargeable cells
Link NOC:Electrochemical Energy Storage Lecture 33 - Introduction to battery management system: BMS topologies, hardware, concept of active
Link NOC:Electrochemical Energy Storage Lecture 34 - Introduction to thermal management: Active thermal management system, passive thermal
Link NOC:Electrochemical Energy Storage Lecture 35 - Packaging of battery pack and battery testing: Material selection, sealing of enclosure
Link NOC:Electrochemical Energy Storage Lecture 36 - Classification of supercapacitors: EDLC and pseudocapacitative type
Link NOC:Electrochemical Energy Storage Lecture 37 - Pseudocapacitor
Link NOC:Electrochemical Energy Storage Lecture 38 - Asymmetric supercapacitor and BATCAP: Battery supercapacitor hybrid electrochemical
Link NOC:Electrochemical Energy Storage Lecture 39 - Electrolytes for supercapacitors: Aqueous/organic liquid electrolytes/ionic liquid
Link NOC:Electrochemical Energy Storage Lecture 40 - Current collectors, separators etc. and their effect on performance
Link NOC:Electrochemical Energy Storage Lecture 41 - Operational principles of aqueous and Li - O2 batteries
Link NOC:Electrochemical Energy Storage Lecture 42 - Electrolytes for Li - O2 batteries
Link NOC:Electrochemical Energy Storage Lecture 43 - Limitations of Li - Air batteries
Link NOC:Electrochemical Energy Storage Lecture 44 - State of the art Li - Air batteries : Carbonaceous materials
Link NOC:Electrochemical Energy Storage Lecture 45 - State of the art Li - Air batteries: Case study
Link NOC:Electrochemical Energy Storage Lecture 46 - The element sulfur, principle of operation
Link NOC:Electrochemical Energy Storage Lecture 47 - Advantages and disadvantages of Li - S batteries, positive electrodes
Link NOC:Electrochemical Energy Storage Lecture 48 - Electrolyte and negative electrode for Li - S battery
Link NOC:Electrochemical Energy Storage Lecture 49 - State of the art Li - S batteries : Case study - I
Link NOC:Electrochemical Energy Storage Lecture 50 - State of the art Li - S batteries : Case study - II
Link NOC:Electrochemical Energy Storage Lecture 51 - Global Geographic Distribution of Raw Lithium Resources
Link NOC:Electrochemical Energy Storage Lecture 52 - Nature and geological origin of all potential lithium resources
Link NOC:Electrochemical Energy Storage Lecture 53 - State of the art extraction techniques and known production reserves
Link NOC:Electrochemical Energy Storage Lecture 54 - Recycling of lithium and other battery constituents from used battery
Link NOC:Electrochemical Energy Storage Lecture 55 - Recycling of lithium and other battery constituents from used battery (Continued...)
Link NOC:Electrochemical Energy Storage Lecture 56 - Lead Acid Batteries: Operational principles, main characteristics and applications
Link NOC:Electrochemical Energy Storage Lecture 57 - Lead Acid Batteries: Operational principles, main characteristics and applications (Continued...)
Link NOC:Electrochemical Energy Storage Lecture 58 - Ni-Cd and Ni-MeH Batteries: Operational principles, main characteristics and applications
Link NOC:Electrochemical Energy Storage Lecture 59 - Redox flow battery vanadium redox battery,operational principle, and main characteristics
Link NOC:Electrochemical Energy Storage Lecture 60 - Other Redox Flow Battery Technologies
Link NOC:Texture in Materials Lecture 1 - Introduction
Link NOC:Texture in Materials Lecture 2 - Texture and Anisotropy
Link NOC:Texture in Materials Lecture 3 - Processing - Texture - Anisotropic Properties
Link NOC:Texture in Materials Lecture 4 - Crystal Structure and Stereographic Projections
Link NOC:Texture in Materials Lecture 5 - Utilization of Stereographic Projections
Link NOC:Texture in Materials Lecture 6 - Diffraction and Bragg's Law
Link NOC:Texture in Materials Lecture 7 - Structure Factor and Diffraction Extinction Criteria
Link NOC:Texture in Materials Lecture 8 - Structure factor and diffraction extinction criteria (Continued...)
Link NOC:Texture in Materials Lecture 9 - Pole figures
Link NOC:Texture in Materials Lecture 10 - Pole figures (Continued...)
Link NOC:Texture in Materials Lecture 11 - Inverse Pole Figures
Link NOC:Texture in Materials Lecture 12 - Three Dimensional Texture Analysis
Link NOC:Texture in Materials Lecture 13 - Euler Angles and ODFs
Link NOC:Texture in Materials Lecture 14 - Euler Angles and ODFs (Continued...)
Link NOC:Texture in Materials Lecture 15 - Euler Angles and ODFs (Continued...)
Link NOC:Texture in Materials Lecture 16 - Euler Angles and ODFs (Continued...)
Link NOC:Texture in Materials Lecture 17 - Symmetry Effects on Orientation Matrix
Link NOC:Texture in Materials Lecture 18 - Euler Space and Orientation Matrices
Link NOC:Texture in Materials Lecture 19 - Texture Fibre, Periodicity in Euler Space, Incomplete Pole Figures
Link NOC:Texture in Materials Lecture 20 - Crystal Structures and Symmetry
Link NOC:Texture in Materials Lecture 21 - Size of Euler Space in Relation to Crystal and Sample Symmetry
Link NOC:Texture in Materials Lecture 22 - Macrotexture and Microtexture Measurements
Link NOC:Texture in Materials Lecture 23 - Penetration Depth of X-ray, Neutron, e-1 and Basics of X-ray Generation
Link NOC:Texture in Materials Lecture 24 - Characteristic X-ray, Absorption and Filters
Link NOC:Texture in Materials Lecture 25 - Principles of pole figure measurements by X-ray diffraction
Link NOC:Texture in Materials Lecture 26 - Texture Goniometer Components
Link NOC:Texture in Materials Lecture 27 - Limitations and Errors in X-ray Texture Measurement and Corrections
Link NOC:Texture in Materials Lecture 28 - Basics of Electron Microscopy - I
Link NOC:Texture in Materials Lecture 29 - Basics of Electron Microscopy - II
Link NOC:Texture in Materials Lecture 30 - Kikuchi Diffraction Pattern - I
Link NOC:Texture in Materials Lecture 31 - Kikuchi Diffraction Pattern - II
Link NOC:Texture in Materials Lecture 32 - Quantitative Evaluation of Kikuchi Diffraction Pattern - I
Link NOC:Texture in Materials Lecture 33 - Quantitative evaluation of Kikuchi Diffraction Pattern - II
Link NOC:Texture in Materials Lecture 34 - Quantitative evaluation of Kikuchi Diffraction Pattern - III
Link NOC:Texture in Materials Lecture 35 - Analysis using the TSL-OIM software
Link NOC:Texture in Materials Lecture 36 - Analysis using the AZtec Crystal software
Link NOC:Texture in Materials Lecture 37 - Analysis using the ATEX software
Link NOC:Texture in Materials Lecture 38 - Introduction to solidification texture
Link NOC:Texture in Materials Lecture 39 - Solidification texture in Alloys
Link NOC:Texture in Materials Lecture 40 - Solidification texture in FCC, BCC, and HCP structures
Link NOC:Texture in Materials Lecture 41 - Phase Transformation Texture and Bain Strain
Link NOC:Texture in Materials Lecture 42 - Orientation Relationships between FCC and BCC / BCT
Link NOC:Texture in Materials Lecture 43 - Various Orientation Relationships and Variants
Link NOC:Texture in Materials Lecture 44 - Basic Mechanics of Polycrystal Plasticity
Link NOC:Texture in Materials Lecture 45 - Basic Mechanics of Polycrystal Plasticity (Continued...)
Link NOC:Texture in Materials Lecture 46 - A Metallurgist Point of View
Link NOC:Texture in Materials Lecture 47 - A Metallurgist Point of View (Continued...)
Link NOC:Texture in Materials Lecture 48 - Texture in FCC polycrystals
Link NOC:Texture in Materials Lecture 49 - Texture in BCC polycrystals - I
Link NOC:Texture in Materials Lecture 50 - Texture in BCC polycrystals - II
Link NOC:Texture in Materials Lecture 51 - Texture in HCP polycrystals - I
Link NOC:Texture in Materials Lecture 52 - Texture in HCP polycrystals - II
Link NOC:Texture in Materials Lecture 53 - Texture in HCP polycrystals - III
Link NOC:Texture in Materials Lecture 54 - Static recrystallization
Link NOC:Texture in Materials Lecture 55 - Dynamic recrystallization and recrystallization texture
Link NOC:Texture in Materials Lecture 56 - Dynamic recrystallization and grain refinement during hot large strain shear
Link Advanced Metallurgical Thermodynamics Lecture 1 - Basic definitions
Link Advanced Metallurgical Thermodynamics Lecture 2 - Free energy, Stability, equilibrium in a unary system
Link Advanced Metallurgical Thermodynamics Lecture 3 - Effect of Pressure on equilibrium transformations: Clausius Clapeyron equation, phase diagram for unary system
Link Advanced Metallurgical Thermodynamics Lecture 4 - Free energy of solutions, free energy-composition diagrams
Link Advanced Metallurgical Thermodynamics Lecture 5 - Solution models, chemical potential
Link Advanced Metallurgical Thermodynamics Lecture 6 - Phase rule, free energy-composition diagrams and phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 7 - Evolution of phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 8 - Evolution of phase diagrams, miscibility gap
Link Advanced Metallurgical Thermodynamics Lecture 9 - To concept, partition less solidification
Link Advanced Metallurgical Thermodynamics Lecture 10 - To concept, partition less solidification (Continued...)
Link Advanced Metallurgical Thermodynamics Lecture 11 - Eutectic solidification, glass formation
Link Advanced Metallurgical Thermodynamics Lecture 12 - Kauzmann paradox, order of a transformation, glass forming ability
Link Advanced Metallurgical Thermodynamics Lecture 13 - Eutectic solidification, coupled growth, heterogeneous nucleation
Link Advanced Metallurgical Thermodynamics Lecture 14 - Peritectic solidification, metastable phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 15 - Errors in drawing phase diagrams, Fe-C vs. Fe-Fe3C phase diagram
Link Advanced Metallurgical Thermodynamics Lecture 16 - Free energy of undercooled liquid, shape of nucleus
Link Advanced Metallurgical Thermodynamics Lecture 17 - Solid state phase transformations - Precipitation
Link Advanced Metallurgical Thermodynamics Lecture 18 - Precipitation
Link Advanced Metallurgical Thermodynamics Lecture 19 - Precipitation - quasicrystals
Link Advanced Metallurgical Thermodynamics Lecture 20 - Precipitate coarsening, stability of a phase, spinodal decomposition
Link Advanced Metallurgical Thermodynamics Lecture 21 - Spinodal decomposition
Link Advanced Metallurgical Thermodynamics Lecture 22 - Eutectioid reaction
Link Advanced Metallurgical Thermodynamics Lecture 23 - Eutectioid reaction (Continued...)
Link Advanced Metallurgical Thermodynamics Lecture 24 - Bainitic transformation
Link Advanced Metallurgical Thermodynamics Lecture 25 - Kinetics of eutectoid transformations
Link Advanced Metallurgical Thermodynamics Lecture 26 - Martensitic Transformation
Link Advanced Metallurgical Thermodynamics Lecture 27 - Martensitic transformation, order-disorder transformation
Link Advanced Metallurgical Thermodynamics Lecture 28 - Miscibility gap in phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 29 - Phase diagram calculations
Link Advanced Metallurgical Thermodynamics Lecture 30 - Thermodynamics of heterogeneous systems
Link Advanced Metallurgical Thermodynamics Lecture 31 - Thermodynamics of heterogeneous systems (Continued...)
Link Materials Characterization Lecture 1 - Properties of light, Image formation
Link Materials Characterization Lecture 2 - Magnification and resolution
Link Materials Characterization Lecture 3 - Depth of field,focus and field of view
Link Materials Characterization Lecture 4 - Lens defects,filters and light microscopy introduction
Link Materials Characterization Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination
Link Materials Characterization Lecture 6 - Opaque stop microscopy, Phase contrast microscopy
Link Materials Characterization Lecture 7 - Dark field microscopy, Polarization microscopy
Link Materials Characterization Lecture 8 - Differential interference contrast and fluorescence microscopy
Link Materials Characterization Lecture 9 - Sample preparation techniques for optical microscopy
Link Materials Characterization Lecture 10A - Tutorial problems (Continuation...)
Link Materials Characterization Lecture 10 - Tutorial problems
Link Materials Characterization Lecture 11 - Introduction to scanning electron Microscopy
Link Materials Characterization Lecture 12 - Lens aberrations, Object resolution, Image quality
Link Materials Characterization Lecture 13 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis
Link Materials Characterization Lecture 14 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength
Link Materials Characterization Lecture 15 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary
Link Materials Characterization Lecture 16 - Factors affecting Interaction volume, Demonstration of SEM
Link Materials Characterization Lecture 17 - Image formation and interpretation
Link Materials Characterization Lecture 18 - Image formation and interpretation continued, EDS, WDS
Link Materials Characterization Lecture 19 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume
Link Materials Characterization Lecture 20 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction(EBSD)-Theory & instrument demonstration
Link Materials Characterization Lecture 21 - Tutorial Problems on SEM
Link Materials Characterization Lecture 22 - Basics of X-ray emission from source, electron excitation and X-ray interaction with materials in general
Link Materials Characterization Lecture 23 - Properties of X-rays
Link Materials Characterization Lecture 24 - Bragg's Law Derivation
Link Materials Characterization Lecture 25 - Diffraction relationship with reciprocal space
Link Materials Characterization Lecture 26 - X-ray scattering
Link Materials Characterization Lecture 27 - Factors affecting intensities of X-ray peaks
Link Materials Characterization Lecture 28 - Factors affecting intensities of X-ray peaks- continuation
Link Materials Characterization Lecture 29 - Effect of crystallite size and strain on intensity of X-rays
Link Materials Characterization Lecture 30 - Profile fit, Factors affecting peak brodening
Link Materials Characterization Lecture 31 - Indexing of diffraction pattern, Quantitative analysis
Link Materials Characterization Lecture 32 - Indexing, Quantitative analysis-continuation, Residual stress measurements
Link Materials Characterization Lecture 33 - XRD and Residual stress measurement- lab demonstration
Link Materials Characterization Lecture 34 - Introduction to Transmission Electron Microscopy (TEM)
Link Materials Characterization Lecture 35 - Fundementals of Transmission Electron Microscopy (TEM)
Link Materials Characterization Lecture 36 - Basics of Diffraction-1
Link Materials Characterization Lecture 37 - Basics of Diffraction-2
Link Materials Characterization Lecture 38 - TEM imaging-1
Link Materials Characterization Lecture 39 - TEM imaging-2
Link Materials Characterization Lecture 40 - TEM instrument demonstration
Link Materials Characterization Lecture 41 - TEM sample preparation-1
Link Materials Characterization Lecture 42 - TEM sample preparation-2
Link Materials Characterization Lecture 43 - XRD Tutorial - 1
Link Materials Characterization Lecture 44 - XRD tutorial - 2
Link Materials Characterization Lecture 45 - TEM Tutorial - 1
Link Materials Characterization Lecture 46 - TEM Tutorial - 2
Link Materials Characterization Lecture 47 - Quantitative metallography - Tutorial 1
Link Materials Characterization Lecture 48 - Quantitative metallography - Tutorial 2
Link Materials Characterization Lecture 49 - Quantitative metallography - Tutorial 3
Link Materials Characterization Lecture 50 - Quantitative metallography - Tutorial 4
Link Materials Characterization Lecture 51 - Quantitative metallography - Tutorial 5
Link Materials Characterization Lecture 52 - Quantitative metallography - Tutorial 6
Link Materials Characterization Lecture 53 - Quantitative metallography - Tutorial 7
Link Physics of Materials Lecture 1 - Introduction
Link Physics of Materials Lecture 2 - Properties of Materials
Link Physics of Materials Lecture 3 - Thermal Expansion
Link Physics of Materials Lecture 4 - Measuring Electrical Conductivity: DC and AC
Link Physics of Materials Lecture 5 - Free Electron Gas
Link Physics of Materials Lecture 6 - The Ideal Gas
Link Physics of Materials Lecture 7 - Drude Model: Electrical Conductivity
Link Physics of Materials Lecture 8 - Drude Model: Thermal Conductivity
Link Physics of Materials Lecture 9 - Drude Model: Successes and Limitations
Link Physics of Materials Lecture 10 - Drude Model: Source of Shortcomings
Link Physics of Materials Lecture 11 - Large Systems and Statistical Mechanics
Link Physics of Materials Lecture 12 - Maxwell Boltzmann Statistics
Link Physics of Materials Lecture 13 - Classical Particles and Quantum Particles
Link Physics of Materials Lecture 14 - History of Quantum Mechanics - 1
Link Physics of Materials Lecture 15 - History of Quantum Mechanics - 2
Link Physics of Materials Lecture 16 - Introduction to Drude Sommerfeld model
Link Physics of Materials Lecture 17 - Fermi-Dirac Statistics - Part 1
Link Physics of Materials Lecture 18 - Fermi-Dirac Statistics - Part 2
Link Physics of Materials Lecture 19 - Features of the Fermi Dirac Distribution Function
Link Physics of Materials Lecture 20 - Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution
Link Physics of Materials Lecture 21 - Anisotropy and Periodic Potential in a Solid
Link Physics of Materials Lecture 22 - Confinement and Quantization - Part 1
Link Physics of Materials Lecture 23 - Confinement and Quantization - Part 2
Link Physics of Materials Lecture 24 - Density of States
Link Physics of Materials Lecture 25 - Fermi Energy, Fermi Surface, Fermi Temperature
Link Physics of Materials Lecture 26 - Electronic Contribution to Specific Heat at Constant Volume
Link Physics of Materials Lecture 27 - Reciprocal Space-1: Introduction to Reciprocal Space
Link Physics of Materials Lecture 28 - Reciprocal Space-2: Condition for Diffraction
Link Physics of Materials Lecture 29 - Reciprocal Space-3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space
Link Physics of Materials Lecture 30 - Wigner Seitz Cell and Introduction to Brillouin Zones
Link Physics of Materials Lecture 31 - Brillouin Zones, Diffraction, and Allowed Energy Levels
Link Physics of Materials Lecture 32 - E Vs k, Brillouin Zones and the Origin of Bands
Link Physics of Materials Lecture 33 - Calculating Allowed Energy Bands and Forbidden Band Gaps
Link Physics of Materials Lecture 34 - Bands; Free Electron Approximation, Tight Binding Approximation
Link Physics of Materials Lecture 35 - Semiconductors
Link Physics of Materials Lecture 36 - Magnetic Properties
Link Physics of Materials Lecture 37 - Electron Compounds; Phonons, Optoelectronic Materials
Link Physics of Materials Lecture 38 - Superconductivity
Link Physics of Materials Lecture 39 - Bose-Einstein Statistics
Link Physics of Materials Lecture 40 - Physics of Nano Scale Materials; Course Summary
Link Electronic materials, devices, and fabrication Lecture 1 - Metals, semiconductors and insulators
Link Electronic materials, devices, and fabrication Lecture 2 - Introduction to semiconductors
Link Electronic materials, devices, and fabrication Lecture 3 - Density of states and Fermi-Dirac statistics
Link Electronic materials, devices, and fabrication Lecture 4 - Assignment 1 - Bonding, DOS, and Fermi statistics
Link Electronic materials, devices, and fabrication Lecture 5 - Intrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 6 - Intrinsic semiconductors - conductivity
Link Electronic materials, devices, and fabrication Lecture 7 - Assignment 2 - Intrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 8 - Extrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 9 - Extrinsic semiconductors - Fermi level
Link Electronic materials, devices, and fabrication Lecture 10 - Extrinsic semiconductors - conductivity
Link Electronic materials, devices, and fabrication Lecture 11 - Assignment 3 - Extrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 12 - Metal-semiconductor junctions
Link Electronic materials, devices, and fabrication Lecture 13 - Assigment 4 - Metal-semiconductor junctions
Link Electronic materials, devices, and fabrication Lecture 14 - pn junctions in equilibrium
Link Electronic materials, devices, and fabrication Lecture 15 - pn junctions under bias
Link Electronic materials, devices, and fabrication Lecture 16 - pn junction breakdown and heterojunctions
Link Electronic materials, devices, and fabrication Lecture 17 - Assignment 5 - pn junctions
Link Electronic materials, devices, and fabrication Lecture 18 - Transistors
Link Electronic materials, devices, and fabrication Lecture 19 - MOSFETs
Link Electronic materials, devices, and fabrication Lecture 20 - Assignment 6 - transistors
Link Electronic materials, devices, and fabrication Lecture 21 - Optoelectronic devices: Introduction
Link Electronic materials, devices, and fabrication Lecture 22 - Optoelectronic devices: LEDs
Link Electronic materials, devices, and fabrication Lecture 23 - Optoelectronic devices: LASERs
Link Electronic materials, devices, and fabrication Lecture 24 - Optoelectronic devices: photodetector
Link Electronic materials, devices, and fabrication Lecture 25 - Optoelectronic devices: solar cells
Link Electronic materials, devices, and fabrication Lecture 26 - Assignment 7 - optical properties
Link Electronic materials, devices, and fabrication Lecture 27 - Assignment 8 - optoelectronic devices
Link Electronic materials, devices, and fabrication Lecture 28 - Semiconductor manufacturing: Introduction
Link Electronic materials, devices, and fabrication Lecture 29 - Si wafer manufacturing
Link Electronic materials, devices, and fabrication Lecture 30 - IC device manufacturing: overview
Link Electronic materials, devices, and fabrication Lecture 31 - Layering: thermal oxidation
Link Electronic materials, devices, and fabrication Lecture 32 - Doping: thermal and ion implantation
Link Electronic materials, devices, and fabrication Lecture 33 - Lithography
Link Electronic materials, devices, and fabrication Lecture 34 - Etching and deposition (growth)
Link Electronic materials, devices, and fabrication Lecture 35 - Metallization and polishing
Link Electronic materials, devices, and fabrication Lecture 36 - Process and device evaluation
Link Electronic materials, devices, and fabrication Lecture 37 - Productivity and process yield
Link Electronic materials, devices, and fabrication Lecture 38 - Clean room design and contamination control
Link Electronic materials, devices, and fabrication Lecture 39 - Devices and IC formation
Link Electronic materials, devices, and fabrication Lecture 40 - IC circuit logic and packaging
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 1 - Properties of light, Image formation
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 2 - Magnification and resolution
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 3 - Depth of field, focus and field of view
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 4 - Lens defects, filters and light microscopy introduction
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 6 - Opaque stop microscopy, Phase contrast microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 7 - Dark field microscopy, Polarization microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 8 - Differential interference contrast and fluorescence microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 9 - Sample preparation techniques for optical microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 10 - Tutorial problems
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 11 - Tutorial problems (Continued...)
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 12 - Introduction to scanning electron Microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 13 - Lens aberrations, Object resolution, Image quality
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 14 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 15 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 16 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 17 - Factors affecting Interaction volume, Demonstration of SEM
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 18 - Image formation and interpretation
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 19 - Image formation and interpretation continued, EDS, WDS
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 20 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 21 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction (EBSD)-Theory & instrument demonstration
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 22 - Tutorial Problems on SEM
Link NOC:Fundamentals of electronic materials and devices Lecture 1 - Electronic Materials
Link NOC:Fundamentals of electronic materials and devices Lecture 2 - Semiconductors - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 3 - Electron statistics in a solid
Link NOC:Fundamentals of electronic materials and devices Lecture 4 - Worked numericals on week 1 lessons
Link NOC:Fundamentals of electronic materials and devices Lecture 5 - Intrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 6 - Intrinsic semiconductors - conductivity
Link NOC:Fundamentals of electronic materials and devices Lecture 7 - Optional - worked assignment on intrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 8 - Extrinsic semiconductors - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 9 - Extrinsic semiconductors - Fermi level
Link NOC:Fundamentals of electronic materials and devices Lecture 10 - Extrinsic semiconductors - Mobility
Link NOC:Fundamentals of electronic materials and devices Lecture 11 - Worked assignment on extrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 12 - Metal-semiconductor junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 13 - pn junctions in equilibrium
Link NOC:Fundamentals of electronic materials and devices Lecture 14 - Optional - worked assignment on metal-semiconductor junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 15 - pn junctions under bias
Link NOC:Fundamentals of electronic materials and devices Lecture 16 - Junction breakdown and heterojunctions
Link NOC:Fundamentals of electronic materials and devices Lecture 17 - Worked assignment on pn junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 18 - Transistors - overview
Link NOC:Fundamentals of electronic materials and devices Lecture 19 - MOSFETs
Link NOC:Fundamentals of electronic materials and devices Lecture 20 - Worked assignment on transistors
Link NOC:Fundamentals of electronic materials and devices Lecture 21 - Optoelectronic devices - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 22 - Light emitting diodes
Link NOC:Fundamentals of electronic materials and devices Lecture 23 - Solid state semiconductor lasers
Link NOC:Fundamentals of electronic materials and devices Lecture 24 - Optional - worked assignment on optical properties
Link NOC:Fundamentals of electronic materials and devices Lecture 25 - Photodetectors
Link NOC:Fundamentals of electronic materials and devices Lecture 26 - Solar cells
Link NOC:Fundamentals of electronic materials and devices Lecture 27 - Worked assignment on optoelectronic devices
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 1 - Reciprocal space; Definition and Properties
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 2 - Condition for Diffraction
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 3 - Worked out examples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 4 - Ewald Sphere and lattices in reciprocal space
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 5 - Wigner Sietz cells and Brillouin Zones
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 6 - Worked out exmaples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 7 - Brillouin Zones, Diffraction and allowed energy levels
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 8 - E Vs K, Brillouin zones and the Origin of Bands
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 9 - Week 3 Worked out examples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 10 - Reciprocal space as Fourier transform of real lattice
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 11 - Alternate notation of reciprocal space
Link NOC:Analysis and Modeling of Welding Lecture 1 - Introduction to fusion welding processes: Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 2 - Introduction to fusion welding processes: Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 3 - Heat sources - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 4 - Heat sources - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 5 - Heat removal
Link NOC:Analysis and Modeling of Welding Lecture 6 - Thermal Modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 7 - Thermal Modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 8 - Zones in a weldment
Link NOC:Analysis and Modeling of Welding Lecture 9 - Analytical Solutions to Weld Thermal Field
Link NOC:Analysis and Modeling of Welding Lecture 10 - Conduction to Keyhole mode
Link NOC:Analysis and Modeling of Welding Lecture 11 - Fluid flow modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 12 - Fluid flow modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 13 - Solute transfer modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 14 - Solute transfer modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 15 - Solute segregation profile - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 16 - Solute segregation profile - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 17 - Microstructure Formation in Fusion Welds
Link NOC:Analysis and Modeling of Welding Lecture 18 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 1
Link NOC:Analysis and Modeling of Welding Lecture 19 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 2
Link NOC:Analysis and Modeling of Welding Lecture 20 - Dissimilar Welding
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 1 - Basics of X-ray emission from source, electron excitation and X-ray interaction with materials in general
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 2 - Properties of X-rays
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 3 - Bragg's law derivation
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 4 - Diffraction relationship with reciprocal space
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 5 - X-ray scattering
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 6 - Factors affecting intensities of X-ray peaks
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 7 - Factors affecting intensities of X-ray peaks (Continued...)
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 8 - Effect of crystallite size and strain on intensity of X-rays
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 9 - Profile fit, Factors affecting peak brodening
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 10 - Indexing of diffraction pattern, Quantitative analysis
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 11 - Indexing and Quantitative analysis-continuation, Residual stress measurements
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 12 - XRD and Residual stress measurement - lab demonstration
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 13 - XRD Tutorial - 1
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 14 - XRD tutorial - 2
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 15 - Introduction to Transmission Electron Microscopy (TEM)
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 16 - Fundamentals of Transmission Electron Microscopy (TEM)
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 17 - Basics of Diffraction - 1
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 18 - Basics of Diffraction - 2
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 19 - TEM Imaging - 1
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 20 - TEM Imaging - 2
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 21 - TEM instrument demonstration
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 22 - TEM sample preparation - 1
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 23 - TEM sample preparation - 2
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 24 - TEM Tutorial - 1
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 25 - TEM Tutorial - 2
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 26 - TEM Tutorial - 3
Link NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy Lecture 27 - TEM Tutorial - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 1 - Visual optical method
Link NOC:Theory and Practice of Non Destructive Testing Lecture 2 - Dye Penetrant Testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 3 - Dye Penetrant Testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 4 - Dye Penetrant Testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 5 - Dye Penetrant Testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 6 - Magnetic particle testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 7 - Magnetic particle testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 8 - Magnetic particle testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 9 - Magnetic particle testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 10 - Magnetic particle testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 11 - Eddy current testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 12 - Eddy current testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 13 - Eddy current testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 14 - Eddy current testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 15 - Eddy current testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 16 - Ultrasonic testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 17 - Ultrasonic testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 18 - Ultrasonic testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 19 - Ultrasonic testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 20 - Ultrasonic testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 21 - Ultrasonic testing - 6
Link NOC:Theory and Practice of Non Destructive Testing Lecture 22 - Ultrasonic testing - 7
Link NOC:Theory and Practice of Non Destructive Testing Lecture 23 - Ultrasonic testing - 8
Link NOC:Theory and Practice of Non Destructive Testing Lecture 24 - Ultrasonic testing - 9
Link NOC:Theory and Practice of Non Destructive Testing Lecture 25 - Ultrasonic testing - 10
Link NOC:Theory and Practice of Non Destructive Testing Lecture 26 - Acoustic Emission Testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 27 - Acoustic Emission Testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 28 - Acoustic Emission Testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 29 - Acoustic Emission Testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 30 - Acoustic Emission Testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 31 - Radiography - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 32 - Radiography - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 33 - Radiography - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 34 - Radiography - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 35 - Radiography - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 36 - Radiography - 6
Link NOC:Theory and Practice of Non Destructive Testing Lecture 37 - Radiography - 7
Link NOC:Theory and Practice of Non Destructive Testing Lecture 38 - Radiography - 8
Link NOC:Theory and Practice of Non Destructive Testing Lecture 39 - Radiography - 9
Link NOC:Theory and Practice of Non Destructive Testing Lecture 40 - Radiography - 10
Link NOC:Defects in Materials Lecture 1 - Introduction to defects in materials
Link NOC:Defects in Materials Lecture 2 - 1-D Lattice
Link NOC:Defects in Materials Lecture 3 - 2-D Lattice
Link NOC:Defects in Materials Lecture 4 - 3-D Lattice - a
Link NOC:Defects in Materials Lecture 5 - 3-D Lattice - b
Link NOC:Defects in Materials Lecture 6 - 3-D Lattice - c
Link NOC:Defects in Materials Lecture 7 - 3-D Crystals
Link NOC:Defects in Materials Lecture 8 - Types of Point Defects
Link NOC:Defects in Materials Lecture 9 - Vacancy Concentration Determination - 1
Link NOC:Defects in Materials Lecture 10 - Vacancy Concentration Determination - 2
Link NOC:Defects in Materials Lecture 11 - Point Defect Interstitial
Link NOC:Defects in Materials Lecture 12 - Transforamtion of co-ordinates
Link NOC:Defects in Materials Lecture 13 - Tensor - 1
Link NOC:Defects in Materials Lecture 14 - Tensor - 2
Link NOC:Defects in Materials Lecture 15 - Strain
Link NOC:Defects in Materials Lecture 16 - Stress
Link NOC:Defects in Materials Lecture 17 - Description of Dislocation - 1
Link NOC:Defects in Materials Lecture 18 - Description of Dislocation - 2
Link NOC:Defects in Materials Lecture 19 - Stress field around Dislocation
Link NOC:Defects in Materials Lecture 20 - Self Energy of Dislocation
Link NOC:Defects in Materials Lecture 21 - Force on Dislocation
Link NOC:Defects in Materials Lecture 22 - Forces Between Dislocation
Link NOC:Defects in Materials Lecture 23 - Chemical Force on Dislocation
Link NOC:Defects in Materials Lecture 24 - Perfect Dislocation in FCC Structures
Link NOC:Defects in Materials Lecture 25 - Instrinsic Stacking Faults in FCC
Link NOC:Defects in Materials Lecture 26 - Extrinsic Faults and Thompson Tetrahedron in FCC
Link NOC:Defects in Materials Lecture 27 - Dislocations in BCC and HCP
Link NOC:Defects in Materials Lecture 28 - Dislocations in Ordered Alloys and Dislocation Dislocation Interaction
Link NOC:Defects in Materials Lecture 29 - Twinning - 1
Link NOC:Defects in Materials Lecture 30 - Twinning - 2
Link NOC:Defects in Materials Lecture 31 - Martensitic Transformation - 1
Link NOC:Defects in Materials Lecture 32 - Martensitic Transformation - 2
Link NOC:Defects in Materials Lecture 33 - Interfaces - 1
Link NOC:Defects in Materials Lecture 34 - Interfaces - 2
Link NOC:Defects in Materials Lecture 35 - Defect Interaction and Strength
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 1 - Method of Stereology
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 2 - Volume Fraction and Particle Size - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 3 - Volume Fraction and Particle Size - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 4 - Geometric Probability - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 5 - Geometric Probability - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 6 - Probability Distributions
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 7 - Volume Fraction and Particle Size - Part 3
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 8 - Volume Fraction and Particle Size - Part 4
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 9 - Geometrical Probability - I
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 10 - Geometrical Probability - II
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 11 - Basic Stereological Parameters - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 12 - Basic Stereological Parameters - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 13 - Counting of grains and particles - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 14 - Description of Polycrystalline Microstructures derived measures
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 15 - Counting of grains and particles - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 16 - Counting of Grains and Particles - Part 3
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 17 - Counting of Grains and Particles - Part 4
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 18 - Other Applications of the Disector
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 19 - Stereology of Anisotropic Microstructures
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 1 - Introduction to the course, Introduction to physical metallurgy of steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 2 - Martensitic transformation, Introduction to modern automotive steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 3 - Introduction to modern automotive steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 4 - Introduction to advanced high strength steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 5 - Introduction to Dual Phase Steel and TRIP Steel Heat Treatments
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 6 - Thermal and Mechanical Processing of TRIP and Hot Forming Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 7 - Introduction to Welding Processes in Automotive Industries
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 8 - Principles of Resistance Spot Welding (RSW)
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 9 - Process Characteristics of Resistance Spot Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 10 - Process Characteristics of Resistance Spot Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 11 - Introduction to Laser Beam Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 12 - Introduction to Laser Beam Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 13 - Principles of Gas Metal Arc Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 14 - Principles of Gas Metal Arc Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 15 - Welding Metallurgy of Advanced High Strength Steels - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 16 - Microstructural Evolution During Welding of Advanced High Strength Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 17 - Elemental Behaviour During Welding of Advanced High Strength Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 18 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 19 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part II and Mechanical Properties
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 20 - Methodologies to Improve the Weldability of Advanced High Strength Steels
Link NOC:Welding Processes Lecture 1 - Introduction to the course
Link NOC:Welding Processes Lecture 2 - Classification of welding processes and definition of welding arc
Link NOC:Welding Processes Lecture 3 - Physics of welding arc - Part 1
Link NOC:Welding Processes Lecture 4 - Physics of welding arc - Part 2
Link NOC:Welding Processes Lecture 5 - Physics of welding arc - Part 3
Link NOC:Welding Processes Lecture 6 - Physics of welding arc - Part 4
Link NOC:Welding Processes Lecture 7 - Fundamentals of ionisation in welding arc
Link NOC:Welding Processes Lecture 8 - Electrical conductivity of welding arc
Link NOC:Welding Processes Lecture 9 - Electrical resistivity of welding arc
Link NOC:Welding Processes Lecture 10 - Heat transfer inside the arc
Link NOC:Welding Processes Lecture 11 - Arc ignition mechanisms Part - I
Link NOC:Welding Processes Lecture 12 - Arc ignition mechanisms Part - II
Link NOC:Welding Processes Lecture 13 - Principles of Gas Tungsten Arc Welding
Link NOC:Welding Processes Lecture 14 - Shielding gases for arc welding
Link NOC:Welding Processes Lecture 15 - Selection of shielding gases for engineering alloys
Link NOC:Welding Processes Lecture 16 - Arc welding power sources - Part 1
Link NOC:Welding Processes Lecture 17 - Arc welding power sources - Part 2
Link NOC:Welding Processes Lecture 18 - Arc welding power sources - Part 3
Link NOC:Welding Processes Lecture 19 - Variations in GTAW process
Link NOC:Welding Processes Lecture 20 - Square wave, variable polarity, GTAW with filler, hot wire GTAW
Link NOC:Welding Processes Lecture 21 - Dual gas GTAW and Plasma Welding processes
Link NOC:Welding Processes Lecture 22 - Multi cathode GTAW and Activated GTAW
Link NOC:Welding Processes Lecture 23 - Buried GTAW and Rate controlling parameters of GTAW
Link NOC:Welding Processes Lecture 24 - Introduction to consumable welding processes
Link NOC:Welding Processes Lecture 25 - Melting rate of consumable wires
Link NOC:Welding Processes Lecture 26 - Physics of droplet transfer in consumable welding
Link NOC:Welding Processes Lecture 27 - Modes of droplet transfer - Part 1
Link NOC:Welding Processes Lecture 28 - Modes of droplet transfer - Part 2
Link NOC:Welding Processes Lecture 29 - Modes of droplet transfer - Part 3
Link NOC:Welding Processes Lecture 30 - Shielded Metal Arc Welding
Link NOC:Welding Processes Lecture 31 - Flux cored arc welding - Introduction
Link NOC:Welding Processes Lecture 32 - Electrode fluxes and process characteristics of flux cored arc welding
Link NOC:Welding Processes Lecture 33 - Flux cored arc welding - Process characteristics
Link NOC:Welding Processes Lecture 34 - Advances in gas metal arc welding - Pulsed GMAW
Link NOC:Welding Processes Lecture 35 - Advances in gas metal arc welding - Controlled dip short circuiting processes
Link NOC:Welding Processes Lecture 36 - Submerged arc welding
Link NOC:Welding Processes Lecture 37 - Resistance welding - Fundamentals
Link NOC:Welding Processes Lecture 38 - Resistance spot welding - Part 1
Link NOC:Welding Processes Lecture 39 - Resistance spot welding - Part 2
Link NOC:Welding Processes Lecture 40 - Resistance spot welding - Part 3
Link NOC:Welding Processes Lecture 41 - Resistance spot welding - Part 4
Link NOC:Welding Processes Lecture 42 - Variants in resistance welding - Part 1
Link NOC:Welding Processes Lecture 43 - Variants in resistance welding - Part 2
Link NOC:Welding Processes Lecture 44 - Laser welding process - Introduction - Part 1
Link NOC:Welding Processes Lecture 45 - Laser welding process - Part 2
Link NOC:Welding Processes Lecture 46 - Laser welding process - Part 3
Link NOC:Welding Processes Lecture 47 - Laser welding process - Part 4
Link NOC:Welding Processes Lecture 48 - Electron beam welding process
Link NOC:Welding Processes Lecture 49 - Other welding processes - Electroslag welding
Link NOC:Welding Processes Lecture 50 - Magnetically Impelled Arc Butt (MIAB) welding
Link NOC:Welding Processes Lecture 51 - Aluminothermic (thermit) welding
Link NOC:Welding Processes Lecture 52 - Introduction to solid state welding processes - Friction welding
Link NOC:Welding Processes Lecture 53 - Friction stir welding - Part 1
Link NOC:Welding Processes Lecture 54 - Friction stir welding - Part 2
Link NOC:Welding Processes Lecture 55 - Other solid state welding processes
Link NOC:Welding Processes Lecture 56 - Joining processes for Plastics - Part 1
Link NOC:Welding Processes Lecture 57 - Joining processes for Plastics - Part 2
Link NOC:Welding Processes Lecture 58 - Adhesive bonding of plastics
Link NOC:Welding Processes Lecture 59 - Welding nomenclatures
Link NOC:Creep Deformation of Materials Lecture 1 - Importance of studying creep
Link NOC:Creep Deformation of Materials Lecture 2 - Basics of plastic deformation and characteristics of dislocations - Part 1
Link NOC:Creep Deformation of Materials Lecture 3 - Basics of plastic deformation and characteristics of dislocations - Part 2
Link NOC:Creep Deformation of Materials Lecture 4 - Basics of plastic deformation and characteristics of dislocations - Part 3
Link NOC:Creep Deformation of Materials Lecture 5 - Creep and different factors that influence creep deformation - Part 1
Link NOC:Creep Deformation of Materials Lecture 6 - Creep and different factors that influence creep deformation - Part 2
Link NOC:Creep Deformation of Materials Lecture 7 - Creep and different factors that influence creep deformation - Part 3
Link NOC:Creep Deformation of Materials Lecture 8 - Creep and different factors that influence creep deformation - Part 4
Link NOC:Creep Deformation of Materials Lecture 9 - Creep and different factors that influence creep deformation - Part 5
Link NOC:Creep Deformation of Materials Lecture 10 - Creep and different factors that influence creep deformation - Part 6
Link NOC:Creep Deformation of Materials Lecture 11 - Mechanisms of Creep - Part 1
Link NOC:Creep Deformation of Materials Lecture 12 - Mechanisms of Creep - Part 2
Link NOC:Creep Deformation of Materials Lecture 13 - Mechanisms of Creep - Part 3
Link NOC:Creep Deformation of Materials Lecture 14 - Mechanisms of Creep - Part 4
Link NOC:Creep Deformation of Materials Lecture 15 - Mechanisms of Creep - Part 5
Link NOC:Creep Deformation of Materials Lecture 16 - Transitions in Creep Mechanisms and Creep Constitutive Equation
Link NOC:Creep Deformation of Materials Lecture 17 - Deformation Mechanism Maps - Part 1
Link NOC:Creep Deformation of Materials Lecture 18 - Deformation Mechanism Maps - Part 2
Link NOC:Creep Deformation of Materials Lecture 19 - Modeling the Useful Creep Life of Materials/Components - Part 1
Link NOC:Creep Deformation of Materials Lecture 20 - Modeling the Useful Creep Life of Materials/Components - Part 2
Link NOC:Creep Deformation of Materials Lecture 21 - Modeling the Useful Creep Life of Materials/Components - Part 3
Link NOC:Creep Deformation of Materials Lecture 22 - Creep Testing Methods - Part 1
Link NOC:Creep Deformation of Materials Lecture 23 - Creep Testing Methods - Part 2
Link NOC:Creep Deformation of Materials Lecture 24 - Improving Creep Resistance of Materials
Link NOC:Nanotechnology, Science and Applications Lecture 1 - Nanotechnology Science and Applications - Introduction
Link NOC:Nanotechnology, Science and Applications Lecture 2 - Nanotechnology : A Walk through History
Link NOC:Nanotechnology, Science and Applications Lecture 3 - Discussion on Feynman’s talk on Nanotechnology - Part I
Link NOC:Nanotechnology, Science and Applications Lecture 4 - Discussion on Feynman’s talk on Nanotechnology - Part II
Link NOC:Nanotechnology, Science and Applications Lecture 5 - Impact of the nanoscale on thermodynamic considerations
Link NOC:Nanotechnology, Science and Applications Lecture 6 - Phase Diagrams and Stable Phases
Link NOC:Nanotechnology, Science and Applications Lecture 7 - Calorimetry
Link NOC:Nanotechnology, Science and Applications Lecture 8 - Zirconia - ZrO2
Link NOC:Nanotechnology, Science and Applications Lecture 9 - Experimentally Investigating the Hall-Petch relationship
Link NOC:Nanotechnology, Science and Applications Lecture 10 - Impact of the Nanoscale on the Hall-Petch Relationship
Link NOC:Nanotechnology, Science and Applications Lecture 11 - Impact of the nanoscale on Mechanical properties
Link NOC:Nanotechnology, Science and Applications Lecture 12 - Superplasticity and the Nanoscale: Background
Link NOC:Nanotechnology, Science and Applications Lecture 13 - Superplasticity and the Nanoscale: Experimental aspects
Link NOC:Nanotechnology, Science and Applications Lecture 14 - Severe Plastic Deformation and the nanoscale: Experimental Utility
Link NOC:Nanotechnology, Science and Applications Lecture 15 - An approach to prepare bulk nanostructures
Link NOC:Nanotechnology, Science and Applications Lecture 16 - Nanosized Ferroelectrics
Link NOC:Nanotechnology, Science and Applications Lecture 17 - Impact of the nanoscale on optical properties
Link NOC:Nanotechnology, Science and Applications Lecture 18 - Experimental approach to study impact of the nanoscale on optical properties
Link NOC:Nanotechnology, Science and Applications Lecture 19 - Impact of the nanoscale on optical properties: measurements
Link NOC:Nanotechnology, Science and Applications Lecture 20 - Nanocomposites
Link NOC:Nanotechnology, Science and Applications Lecture 21 - Effect of Nanoscale on Magnetic Properties: Potential use of biomaterials
Link NOC:Nanotechnology, Science and Applications Lecture 22 - Effect of Nanostructure on Damping Properties
Link NOC:Nanotechnology, Science and Applications Lecture 23 - Carbon
Link NOC:Nanotechnology, Science and Applications Lecture 24 - Carbon Nanotubes
Link NOC:Nanotechnology, Science and Applications Lecture 25 - Graphene, a 2D nanomaterials
Link NOC:Powder Metallurgy Lecture 1 - Introduction to Powder Metallurgy
Link NOC:Powder Metallurgy Lecture 2 - Powder Fabrication Methods: Mechanical Fabrication
Link NOC:Powder Metallurgy Lecture 3 - Powder Fabrication Methods: Mechanical and Electrolytic Fabrication
Link NOC:Powder Metallurgy Lecture 4 - Powder Fabrication Methods: Chemical Fabrication
Link NOC:Powder Metallurgy Lecture 5 - Powder Fabrication Methods: Atomization
Link NOC:Powder Metallurgy Lecture 6 - Gas atomization
Link NOC:Powder Metallurgy Lecture 7 - Water Atomization
Link NOC:Powder Metallurgy Lecture 8 - Centrifugal Atomization
Link NOC:Powder Metallurgy Lecture 9 - Comparison of Atomization techniques
Link NOC:Powder Metallurgy Lecture 10 - Nucleation and Growth
Link NOC:Powder Metallurgy Lecture 11 - Thermodynamics and Kinetic of Solidification
Link NOC:Powder Metallurgy Lecture 12 - Microstructure Control
Link NOC:Powder Metallurgy Lecture 13 - Microstructure control: Effect of process parameters
Link NOC:Powder Metallurgy Lecture 14 - Dendritic growth in pure metals
Link NOC:Powder Metallurgy Lecture 15 - Dendritic growth in alloys
Link NOC:Powder Metallurgy Lecture 16 - Crystalline and Amorphous structures
Link NOC:Powder Metallurgy Lecture 17 - Crystalline vs Amorphous
Link NOC:Powder Metallurgy Lecture 18 - T-T-T diagram: Formation of Amorphous solids
Link NOC:Powder Metallurgy Lecture 19 - Effect of particle size on microstructure
Link NOC:Powder Metallurgy Lecture 20 - Powder Characterization
Link NOC:Powder Metallurgy Lecture 21 - Basis for particle size measurement
Link NOC:Powder Metallurgy Lecture 22 - Measurement of particle size and size distribution
Link NOC:Powder Metallurgy Lecture 23 - Particle size distribution
Link NOC:Powder Metallurgy Lecture 24 - Dynamic Light Scattering - 1
Link NOC:Powder Metallurgy Lecture 25 - Dynamic Light Scattering - 2
Link NOC:Powder Metallurgy Lecture 26 - Particle size measurement - Other methods
Link NOC:Powder Metallurgy Lecture 27 - Surface Area Analysis - 1
Link NOC:Powder Metallurgy Lecture 28 - Surface Area Analysis - 2
Link NOC:Powder Metallurgy Lecture 29 - BET Surface Area Analysis
Link NOC:Powder Metallurgy Lecture 30 - Interparticle friction
Link NOC:Powder Metallurgy Lecture 31 - Powder packing
Link NOC:Powder Metallurgy Lecture 32 - Powder mixing and blending
Link NOC:Powder Metallurgy Lecture 33 - Powder Lubrication and Coating
Link NOC:Powder Metallurgy Lecture 34 - Powder compaction - 1
Link NOC:Powder Metallurgy Lecture 35 - Powder compaction - 2
Link NOC:Powder Metallurgy Lecture 36 - Powder compaction - 3
Link NOC:Powder Metallurgy Lecture 37 - Cold Isostatic Pressing and; Powder Injection Molding
Link NOC:Powder Metallurgy Lecture 38 - Powder Injection Molding - 2
Link NOC:Powder Metallurgy Lecture 39 - Slurry Techniques
Link NOC:Powder Metallurgy Lecture 40 - Tape casting
Link NOC:Powder Metallurgy Lecture 41 - Sintering - 1
Link NOC:Powder Metallurgy Lecture 42 - Sintering - 2
Link NOC:Powder Metallurgy Lecture 43 - Sintering - 3
Link NOC:Powder Metallurgy Lecture 44 - Sintering - 4
Link NOC:Powder Metallurgy Lecture 45 - Sintering - 5
Link NOC:Powder Metallurgy Lecture 46 - Sintering - 6
Link NOC:Powder Metallurgy Lecture 47 - Sintering - 7
Link NOC:Powder Metallurgy Lecture 48 - Sintering - 8
Link NOC:Powder Metallurgy Lecture 49 - Sintering - 9
Link NOC:Powder Metallurgy Lecture 50 - Sintering - 10
Link NOC:Powder Metallurgy Lecture 51 - Liquid Phase Sintering - 1
Link NOC:Powder Metallurgy Lecture 52 - Liquid Phase Sintering - 2
Link NOC:Powder Metallurgy Lecture 53 - Liquid Phase Sintering - 3
Link NOC:Powder Metallurgy Lecture 54 - Liquid Phase Sintering - 4
Link NOC:Powder Metallurgy Lecture 55 - Liquid Phase Sintering - 5
Link NOC:Powder Metallurgy Lecture 56 - Full Density Processing - 1
Link NOC:Powder Metallurgy Lecture 57 - Full Density Processing - 2
Link NOC:Powder Metallurgy Lecture 58 - Full Density Processing - 3
Link NOC:Powder Metallurgy Lecture 59 - Full Density Processing - 4
Link NOC:Powder Metallurgy Lecture 60 - Spark Plasma Sintering (SPS)
Link NOC:Carbon Materials and Manufacturing Lecture 1 - Introduction to Materials and Manufacturing
Link NOC:Carbon Materials and Manufacturing Lecture 2 - Mathematical Representation of Material Properties
Link NOC:Carbon Materials and Manufacturing Lecture 3 - Story of Carbon: Carbon on Earth and in Outer Space
Link NOC:Carbon Materials and Manufacturing Lecture 4 - Story of Carbon: Carbon in Technology
Link NOC:Carbon Materials and Manufacturing Lecture 5 - Isotopes of carbon
Link NOC:Carbon Materials and Manufacturing Lecture 6 - Hybridization in Carbon Atoms
Link NOC:Carbon Materials and Manufacturing Lecture 7 - sp3, sp2 and sp Hybridization: Diamond, Graphite and Carbyne
Link NOC:Carbon Materials and Manufacturing Lecture 8 - sp(2+n) Hybridization: Curved Carbon
Link NOC:Carbon Materials and Manufacturing Lecture 9 - Allotropes of Carbon and Their Classification
Link NOC:Carbon Materials and Manufacturing Lecture 10 - Carbon Allotrpoe Conversion
Link NOC:Carbon Materials and Manufacturing Lecture 11 - Phase Diagram of Carbon
Link NOC:Carbon Materials and Manufacturing Lecture 12 - Introduction to Engineering Carbons
Link NOC:Carbon Materials and Manufacturing Lecture 13 - Graphite Crystal Structure
Link NOC:Carbon Materials and Manufacturing Lecture 14 - Rhombohedral Graphite and Stacking Faults
Link NOC:Carbon Materials and Manufacturing Lecture 15 - Graphite Ore Processing
Link NOC:Carbon Materials and Manufacturing Lecture 16 - Synthetic Graphite Production from Needle Coke
Link NOC:Carbon Materials and Manufacturing Lecture 17 - Kish Graphite and PVC-Derived Graphite
Link NOC:Carbon Materials and Manufacturing Lecture 18 - Highly Oriented Pyrolytic Graphite
Link NOC:Carbon Materials and Manufacturing Lecture 19 - Pyrolysis of Gaseous Hydrocarbons
Link NOC:Carbon Materials and Manufacturing Lecture 20 - Polymer-derived Carbon: Coking and Charring Mechanism
Link NOC:Carbon Materials and Manufacturing Lecture 21 - Kinetics of Graphitization
Link NOC:Carbon Materials and Manufacturing Lecture 22 - Microstructure of Non-Graphitizing Carbon
Link NOC:Carbon Materials and Manufacturing Lecture 23 - Glass-Like Carbon: Introduction and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 24 - Glass-Like Carbon: Industrial Manufacturing
Link NOC:Carbon Materials and Manufacturing Lecture 25 - Microfabrication with Glass-Like Carbon
Link NOC:Carbon Materials and Manufacturing Lecture 26 - Carbon Materials and Manufacturing
Link NOC:Carbon Materials and Manufacturing Lecture 27 - X-Ray and Nano-Imprint Lithography
Link NOC:Carbon Materials and Manufacturing Lecture 28 - Activated Carbon: Introduction and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 29 - Activated Carbon: Industrial Manufacturing
Link NOC:Carbon Materials and Manufacturing Lecture 30 - Carbon Black: Introduction and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 31 - Carbon Black: Industrial Manufacturing
Link NOC:Carbon Materials and Manufacturing Lecture 32 - Carbon Fiber: Introduction and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 33 - Melt Spinning of Petroleum Pitches
Link NOC:Carbon Materials and Manufacturing Lecture 34 - Electrospinning and Viscoelasticity
Link NOC:Carbon Materials and Manufacturing Lecture 35 - Carbonization of Polyacrylonitrile (PAN) Fibers
Link NOC:Carbon Materials and Manufacturing Lecture 36 - Mechanical Property Testing Methods for Carbon Fibers
Link NOC:Carbon Materials and Manufacturing Lecture 37 - Defects in Carbon Fibers
Link NOC:Carbon Materials and Manufacturing Lecture 38 - Introduction to Carbon Fiber Reinforced Plastic (CFRP)
Link NOC:Carbon Materials and Manufacturing Lecture 39 - Machining of Carbon Fiber Reinforced Plastic
Link NOC:Carbon Materials and Manufacturing Lecture 40 - Carbon/Carbon Composite
Link NOC:Carbon Materials and Manufacturing Lecture 41 - Carbon/Metal and Carbon/Concrete Composites: Manufacture and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 42 - Graphene: Introduction and Crystal Structure
Link NOC:Carbon Materials and Manufacturing Lecture 43 - Graphene: History and Nomenclature
Link NOC:Carbon Materials and Manufacturing Lecture 44 - Chemical Vapor Deposition of Graphene - I
Link NOC:Carbon Materials and Manufacturing Lecture 45 - Chemical Vapor Deposition of Graphene - II
Link NOC:Carbon Materials and Manufacturing Lecture 46 - Defects in Graphene and the (n,m) Notations
Link NOC:Carbon Materials and Manufacturing Lecture 47 - Carbon Nanotube: Introduction and Properties
Link NOC:Carbon Materials and Manufacturing Lecture 48 - Vapor Phase Growth of Carbon Nanotube
Link NOC:Carbon Materials and Manufacturing Lecture 49 - Vapor Deposited Diamond
Link NOC:Carbon Materials and Manufacturing Lecture 50 - Diamond Like Carbon
Link NOC:Carbon Materials and Manufacturing Lecture 51 - X-Ray Diffraction Analysis of Carbon Materials
Link NOC:Carbon Materials and Manufacturing Lecture 52 - Raman Spectroscopy of Carbon Materials
Link NOC:Carbon Materials and Manufacturing Lecture 53 - Transmission Electron Microscopy of Carbon Materials
Link NOC:Carbon Materials and Manufacturing Lecture 54 - Surface Area Analysis of Carbon Materials
Link NOC:Carbon Materials and Manufacturing Lecture 55 - Numerical Problems: Carbon Manufacturing and Characterization
Link NOC:Carbon Materials and Manufacturing Lecture 56 - Large Scale Industrial Applications of Carbon Materials
Link NOC:Carbon Materials and Manufacturing Lecture 57 - Micro and Nano Scale Applications of Carbon Materials: Rigid and flexible carbon devices
Link NOC:Carbon Materials and Manufacturing Lecture 58 - Supply Chain of Industrial Carbons
Link NOC:Carbon Materials and Manufacturing Lecture 59 - Summary of NPTEL Course on Carbon Materials and Manufacturing
Link NOC:Mechanical Behavior of Materials Lecture 1 - Introduction
Link NOC:Mechanical Behavior of Materials Lecture 2 - Chemical Bonding in Materials
Link NOC:Mechanical Behavior of Materials Lecture 3 - Strength of materials - a short overview - Part I
Link NOC:Mechanical Behavior of Materials Lecture 4 - Strength of materials - a short overview - Part II
Link NOC:Mechanical Behavior of Materials Lecture 5 - Strength of materials - a short overview - Part III
Link NOC:Mechanical Behavior of Materials Lecture 6 - Strength of materials - a short overview - Part IV
Link NOC:Mechanical Behavior of Materials Lecture 7 - Strength of materials - a short overview - Part V
Link NOC:Mechanical Behavior of Materials Lecture 8 - Elastic stress- strain relations - Part I
Link NOC:Mechanical Behavior of Materials Lecture 9 - Elastic stress- strain relations - Part II
Link NOC:Mechanical Behavior of Materials Lecture 10 - Elastic properties - Part I
Link NOC:Mechanical Behavior of Materials Lecture 11 - Elastic properties - Part II
Link NOC:Mechanical Behavior of Materials Lecture 12 - Anelasticity
Link NOC:Mechanical Behavior of Materials Lecture 13 - Introduction to Dislocations - I
Link NOC:Mechanical Behavior of Materials Lecture 14 - Introduction to Dislocations - II
Link NOC:Mechanical Behavior of Materials Lecture 15 - Introduction to Dislocations - III
Link NOC:Mechanical Behavior of Materials Lecture 16 - Introduction to Dislocations - IV
Link NOC:Mechanical Behavior of Materials Lecture 17 - Introduction to Dislocations - V
Link NOC:Mechanical Behavior of Materials Lecture 18 - Introduction to Dislocations - VI
Link NOC:Mechanical Behavior of Materials Lecture 19 - Introduction to Dislocations - VII
Link NOC:Mechanical Behavior of Materials Lecture 20 - Introduction to Dislocations - VIII
Link NOC:Mechanical Behavior of Materials Lecture 21 - Introduction to Plastic deformation - I
Link NOC:Mechanical Behavior of Materials Lecture 22 - Introduction to Plastic deformation - II
Link NOC:Mechanical Behavior of Materials Lecture 23 - Introduction to Plastic Deformation - III
Link NOC:Mechanical Behavior of Materials Lecture 24 - Introduction to Plastic Deformation - IV
Link NOC:Mechanical Behavior of Materials Lecture 25 - Introduction to Plastic Deformation - V
Link NOC:Mechanical Behavior of Materials Lecture 26 - Introduction to Plastic Deformation - VI
Link NOC:Mechanical Behavior of Materials Lecture 27 - Strengthening Mechanisms in Crystalline Materials - I
Link NOC:Mechanical Behavior of Materials Lecture 28 - Strengthening Mechanisms in Crystalline Materials - II
Link NOC:Mechanical Behavior of Materials Lecture 29 - Strengthening Mechanisms in Crystalline Materials - III
Link NOC:Mechanical Behavior of Materials Lecture 30 - Strengthening Mechanisms in Crystalline Materials - IV
Link NOC:Mechanical Behavior of Materials Lecture 31 - Strengthening Mechanisms in Crystalline Materials - V
Link NOC:Mechanical Behavior of Materials Lecture 32 - Mechanical Testing - I
Link NOC:Mechanical Behavior of Materials Lecture 33 - Mechanical Testing - II
Link NOC:Mechanical Behavior of Materials Lecture 34 - Mechanical Testing - III
Link NOC:Mechanical Behavior of Materials Lecture 35 - Mechanical Testing - IV
Link NOC:Mechanical Behavior of Materials Lecture 36 - Mechanical Testing - V
Link NOC:Mechanical Behavior of Materials Lecture 37 - Mechanical Testing - VI
Link NOC:Mechanical Behavior of Materials Lecture 38 - Mechanical Testing - VII
Link NOC:Mechanical Behavior of Materials Lecture 39 - Mechanical Testing - VIII
Link NOC:Mechanical Behavior of Materials Lecture 40 - Mechanical Testing - IX
Link NOC:Mechanical Behavior of Materials Lecture 41 - Mechanical Testing - X
Link NOC:Mechanical Behavior of Materials Lecture 42 - Creep - I
Link NOC:Mechanical Behavior of Materials Lecture 43 - Creep - II
Link NOC:Mechanical Behavior of Materials Lecture 44 - Creep - III
Link NOC:Mechanical Behavior of Materials Lecture 45 - Creep - IV
Link NOC:Mechanical Behavior of Materials Lecture 46 - Creep - V
Link NOC:Mechanical Behavior of Materials Lecture 47 - Creep - VI
Link NOC:Mechanical Behavior of Materials Lecture 48 - Fracture Mechanics - I
Link NOC:Mechanical Behavior of Materials Lecture 49 - Fracture Mechanics - II
Link NOC:Mechanical Behavior of Materials Lecture 50 - Fracture Mechanics - III
Link NOC:Mechanical Behavior of Materials Lecture 51 - Fracture Mechanics - IV
Link NOC:Mechanical Behavior of Materials Lecture 52 - Fracture Mechanics - V
Link NOC:Mechanical Behavior of Materials Lecture 53 - Fracture Mechanics - VI
Link NOC:Mechanical Behavior of Materials Lecture 54 - Fracture Mechanics - VII
Link NOC:Mechanical Behavior of Materials Lecture 55 - Fracture Mechanics - VIII
Link NOC:Mechanical Behavior of Materials Lecture 56 - Fracture Mechanics - IX
Link NOC:Mechanical Behavior of Materials Lecture 57 - Fracture Mechanics - X
Link NOC:Mechanical Behavior of Materials Lecture 58 - Fracture Mechanics - XI
Link NOC:Mechanical Behavior of Materials Lecture 59 - Fatigue - I
Link NOC:Mechanical Behavior of Materials Lecture 60 - Fatigue - II
Link NOC:Mechanical Behavior of Materials Lecture 61 - Fatigue - III
Link NOC:Mechanical Behavior of Materials Lecture 62 - Fatigue - IV
Link NOC:Mechanical Behavior of Materials Lecture 63 - Fatigue - V
Link NOC:Surface Engineering of Nanomaterials Lecture 1 - Tribology and Its Classification
Link NOC:Surface Engineering of Nanomaterials Lecture 2 - Friction Tribology
Link NOC:Surface Engineering of Nanomaterials Lecture 3 - Wear and Corrosion
Link NOC:Surface Engineering of Nanomaterials Lecture 4 - Lubrication
Link NOC:Surface Engineering of Nanomaterials Lecture 5 - Effect of Tribology on Surface of Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 6 - Conventional Surface Engineering
Link NOC:Surface Engineering of Nanomaterials Lecture 7 - Types of Surface Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 8 - Physical Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 9 - Chemical Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 10 - Applications of Surface Engineering towards Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 11 - Deposition and Surface Modification Methods
Link NOC:Surface Engineering of Nanomaterials Lecture 12 - Physical Vapour Deposition (PVD)
Link NOC:Surface Engineering of Nanomaterials Lecture 13 - Chemical Vapour Deposition (CVD)
Link NOC:Surface Engineering of Nanomaterials Lecture 14 - Advanced Surface Modification Practices
Link NOC:Surface Engineering of Nanomaterials Lecture 15 - Advantages of Deposition for Surface Modification
Link NOC:Surface Engineering of Nanomaterials Lecture 16 - Synthesis, Processing and Characterization of Nano-structured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 17 - Functional Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 18 - Advanced Coating Practices
Link NOC:Surface Engineering of Nanomaterials Lecture 19 - Characterization of Nano-coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 20 - Applications of Nano-coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 21 - Need of Advanced Methods for Surface and Coating Testings
Link NOC:Surface Engineering of Nanomaterials Lecture 22 - Size Dependency in Nanostructures of Nanocoatings
Link NOC:Surface Engineering of Nanomaterials Lecture 23 - Size Effect in Electrochemical Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 24 - Size Effect in Mechanical Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 25 - Size Effect in Physical and Other Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 26 - Thin Films for Surface Engineering of Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 27 - Sputtering Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 28 - Evaporation Processes
Link NOC:Surface Engineering of Nanomaterials Lecture 29 - Thin Film Deposition through Gas Phase Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 30 - Liquid Phase Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 31 - Microencapsulation Processes
Link NOC:Surface Engineering of Nanomaterials Lecture 32 - Microencapsulation: Kinetics of release
Link NOC:Surface Engineering of Nanomaterials Lecture 33 - Plating of Nanocomposite Coatings - I
Link NOC:Surface Engineering of Nanomaterials Lecture 34 - Plating of Nanocomposite Coatings - II
Link NOC:Surface Engineering of Nanomaterials Lecture 35 - Advantages of Microencapsulation over Other Conventional Methods
Link NOC:Surface Engineering of Nanomaterials Lecture 36 - Current Trends in Surface Modification of Nanomaterials - Part-1
Link NOC:Surface Engineering of Nanomaterials Lecture 37 - Current Trends in Surface Modification of Nanomaterials - Part-2
Link NOC:Surface Engineering of Nanomaterials Lecture 38 - Current Trends in Surface Modification of Nanomaterials - Part-3
Link NOC:Surface Engineering of Nanomaterials Lecture 39 - Modified Nanomaterials: In-use for consumer products
Link NOC:Surface Engineering of Nanomaterials Lecture 40 - Main Problems in Synthesis of Modified Nanomaterials
Link NOC:Material Science and Engineering Lecture 1 - Introduction
Link NOC:Material Science and Engineering Lecture 2 - Atomic structure and bonding
Link NOC:Material Science and Engineering Lecture 3 - Crystal systems and structures: Lattice
Link NOC:Material Science and Engineering Lecture 4 - X-ray diffraction: Crystal structure determination
Link NOC:Material Science and Engineering Lecture 5 - Crystal planes and directions: Indexing
Link NOC:Material Science and Engineering Lecture 6 - Optical microscope
Link NOC:Material Science and Engineering Lecture 7 - Optical aberration
Link NOC:Material Science and Engineering Lecture 8 - Metallography
Link NOC:Material Science and Engineering Lecture 9 - Microstructure: Understanding
Link NOC:Material Science and Engineering Lecture 10 - Quantitative metallography
Link NOC:Material Science and Engineering Lecture 11 - Crystallographic defects
Link NOC:Material Science and Engineering Lecture 12 - Diffusion
Link NOC:Material Science and Engineering Lecture 13 - Phase diagram - 1
Link NOC:Material Science and Engineering Lecture 14 - Phase diagram - 2
Link NOC:Material Science and Engineering Lecture 15 - Eutectic phase diagram
Link NOC:Material Science and Engineering Lecture 16 - Equilibrium and non-equilibrium cooling
Link NOC:Material Science and Engineering Lecture 17 - Equilibrium cooling of eutectic system
Link NOC:Material Science and Engineering Lecture 18 - Solidification structure
Link NOC:Material Science and Engineering Lecture 19 - Iron-carbon phase diagram
Link NOC:Material Science and Engineering Lecture 20 - Nucleation and growth
Link NOC:Material Science and Engineering Lecture 21 - TTT and CCT curves
Link NOC:Material Science and Engineering Lecture 22 - Heat treatment
Link NOC:Material Science and Engineering Lecture 23 - Precipitation
Link NOC:Material Science and Engineering Lecture 24 - Elastic behaviour
Link NOC:Material Science and Engineering Lecture 25 - Tensile test
Link NOC:Material Science and Engineering Lecture 26 - Engineering and true stress and strain
Link NOC:Material Science and Engineering Lecture 27 - Plastic deformation - 1
Link NOC:Material Science and Engineering Lecture 28 - Plastic deformation - 2
Link NOC:Material Science and Engineering Lecture 29 - Strengthening mechanism - 1
Link NOC:Material Science and Engineering Lecture 30 - Strengthening mechanism - 2
Link NOC:Material Science and Engineering Lecture 31 - Strengthening mechanism - 3
Link NOC:Material Science and Engineering Lecture 32 - Strengthening mechanism - 4
Link NOC:Material Science and Engineering Lecture 33 - Fracture: Part - 1
Link NOC:Material Science and Engineering Lecture 34 - Fracture: Part - 2
Link NOC:Material Science and Engineering Lecture 35 - Fatigue
Link NOC:Material Science and Engineering Lecture 36 - Creep
Link NOC:Material Science and Engineering Lecture 37 - NDT: Hardness measurement
Link NOC:Material Science and Engineering Lecture 38 - Ceramics, polymers, composites
Link NOC:Material Science and Engineering Lecture 39 - Electrical and magnetic properties
Link NOC:Material Science and Engineering Lecture 40 - Alloy designation and properties
Link NOC:Structural Analysis of Nanomaterials Lecture 1 - Introduction
Link NOC:Structural Analysis of Nanomaterials Lecture 2 - Structure of Materials
Link NOC:Structural Analysis of Nanomaterials Lecture 3 - Imperfections in Structure of Materials
Link NOC:Structural Analysis of Nanomaterials Lecture 4 - Phase Diagram: Determination of Phases
Link NOC:Structural Analysis of Nanomaterials Lecture 5 - Transformation of Phases
Link NOC:Structural Analysis of Nanomaterials Lecture 6 - Basic Properties: Metals - I
Link NOC:Structural Analysis of Nanomaterials Lecture 7 - Basic Properties: Metals - II
Link NOC:Structural Analysis of Nanomaterials Lecture 8 - Basic Properties: Ceramics
Link NOC:Structural Analysis of Nanomaterials Lecture 9 - Basic Properties: Polymers
Link NOC:Structural Analysis of Nanomaterials Lecture 10 - Selection of Nanomaterials based on Applications
Link NOC:Structural Analysis of Nanomaterials Lecture 11 - Introduction to X-Ray Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 12 - Diffraction Methods and Directions of XRD
Link NOC:Structural Analysis of Nanomaterials Lecture 13 - Determination of Crystal Structures by XRD Patterns
Link NOC:Structural Analysis of Nanomaterials Lecture 14 - Precise Parameter Measurements
Link NOC:Structural Analysis of Nanomaterials Lecture 15 - Orientation of Single Crystals
Link NOC:Structural Analysis of Nanomaterials Lecture 16 - Qualitative Analysis by Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 17 - Quantitative Analysis by Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 18 - Microscopic Structural Analysis of Nanomaterials - I
Link NOC:Structural Analysis of Nanomaterials Lecture 19 - Microscopic Structural Analysis of Nanomaterials - II
Link NOC:Structural Analysis of Nanomaterials Lecture 20 - Other Characterization Techniques
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 1 - Introduction to Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 2 - Conventional Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 3 - Non-conventional Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 4 - Stress and Strain
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 5 - Effect of Strain Rate and Temperature
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 6 - Microstructure Evolution
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 7 - Dynamic Recovery
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 8 - Discontinuous Dynamic Recrystallization
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 9 - Dynamic Recrystallization : Critical Stress and Strain
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 10 - Continuous Dynamic Recrystallization (CDRX) and Geometrical Dynamic Recrystallization (GDRX)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 11 - Stereographic Projection
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 12 - Using Stereographic Projection
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 13 - Crystallographic Texture
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 14 - Crystallographic Texture: Texture Components
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 15 - Crystallographic Texture: Application
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 16 - Constitutive Analysis
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 17 - Constitutive Analysis: Low Strain Rate
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 18 - Higher Strain Rate: Hot Working
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 19 - Constitutive Based Model : Physical Based Model
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 20 - Constitutive analysis : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 21 - Processing Maps : Deformation Mechanism maps
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 22 - Processing Maps : Dynamic Material Model
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 23 - Microstructure and Application
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 24 - Processing Maps : Different Models
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 25 - Processing Maps : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 26 - Equal Channel Angular Pressing (ECAP)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 27 - Friction Stir Processing (FSP)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 28 - Accumulative Roll Bonding (ARB)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 29 - Multi Axial Forging (MAF)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 30 - Severe Plastic Deformation : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 31 - Overview on Thermo-Chemical treatments
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 32 - Overview on Thermo-Chemical treatments (Continued...)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 33 - Thermodynamic aspects of thermo-chemical treatments: Preliminaries
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 34 - Thermodynamics of Gaseous Nitriding - I
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 35 - Thermodynamics of Gaseous Nitriding - II
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 36 - Gaseous Nitriding of Pure Iron
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 37 - Gaseous Nitriding of Iron based alloys
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 38 - Duplex and Dual Phase microstructures through nitriding
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 39 - Alloying element nitride precipitation during nitriding of iron based alloys
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 40 - Kinetics of gaseous nitriding
Link NOC:Welding Metallurgy Lecture 1 - Introduction to welding metallurgy
Link NOC:Welding Metallurgy Lecture 2 - Overview of Welding Processes
Link NOC:Welding Metallurgy Lecture 3 - Introduction to phase diagrams
Link NOC:Welding Metallurgy Lecture 4 - Phase diagram of Iron Carbon system
Link NOC:Welding Metallurgy Lecture 5 - Phase diagram of non ferrous metals and alloys
Link NOC:Welding Metallurgy Lecture 6 - Phase Transformations
Link NOC:Welding Metallurgy Lecture 7 - Time Temperature Transformation Diagrams
Link NOC:Welding Metallurgy Lecture 8 - Continuous Cooling Transformation Diagrams
Link NOC:Welding Metallurgy Lecture 9 - Carbon Equivalent, Schaeffler Diagrams
Link NOC:Welding Metallurgy Lecture 10 - Problem solving on Phase Diagrams
Link NOC:Welding Metallurgy Lecture 11 - Introduction to strengthening mechanism in metals
Link NOC:Welding Metallurgy Lecture 12 - Solid solution strengthening and grain refinement
Link NOC:Welding Metallurgy Lecture 13 - Precipitation Hardening and Martensite Strengthening
Link NOC:Welding Metallurgy Lecture 14 - Strain Hardening and Strain Ageing
Link NOC:Welding Metallurgy Lecture 15 - Problem solving on strengthening mechanism in metals
Link NOC:Welding Metallurgy Lecture 16 - Introduction to Heat treatment Processes in Welding
Link NOC:Welding Metallurgy Lecture 17 - Hardening and Hardenability
Link NOC:Welding Metallurgy Lecture 18 - Martempering and Austempering
Link NOC:Welding Metallurgy Lecture 19 - Case Hardening methods
Link NOC:Welding Metallurgy Lecture 20 - Heat treatment of Non-Ferrous metals and alloys
Link NOC:Welding Metallurgy Lecture 21 - Heat Sources in Welding
Link NOC:Welding Metallurgy Lecture 22 - Heat Flow in Welding
Link NOC:Welding Metallurgy Lecture 23 - Temperature Distribution in Welding
Link NOC:Welding Metallurgy Lecture 24 - Effect of Welding Parameters
Link NOC:Welding Metallurgy Lecture 25 - Metallurgical effect of Heat Flow on Welding
Link NOC:Welding Metallurgy Lecture 26 - Principles of Solidification in Welding
Link NOC:Welding Metallurgy Lecture 27 - Solute redistribution during Solidification
Link NOC:Welding Metallurgy Lecture 28 - Constitutional Supercooling
Link NOC:Welding Metallurgy Lecture 29 - Microsegregation and Banding
Link NOC:Welding Metallurgy Lecture 30 - Grain Structure during Solidification in Welding
Link NOC:Welding Metallurgy Lecture 31 - Distinct Zones in Fusion Welded Specimen
Link NOC:Welding Metallurgy Lecture 32 - Heat Affected Zone
Link NOC:Welding Metallurgy Lecture 33 - Properties of Heat Affect Zone
Link NOC:Welding Metallurgy Lecture 34 - Microstructural Products in Weldments
Link NOC:Welding Metallurgy Lecture 35 - Introduction to Preheat and Postweld Heat Treatment
Link NOC:Welding Metallurgy Lecture 36 - Preheat and Postweld Heat Treatment of Different Materials
Link NOC:Welding Metallurgy Lecture 37 - Residual Stresses in Welding
Link NOC:Welding Metallurgy Lecture 38 - Causes of Residual Stress Development in Welding
Link NOC:Welding Metallurgy Lecture 39 - Measurement of Residual Stresses in Weldments
Link NOC:Welding Metallurgy Lecture 40 - Controlling Residual Stresses in Weldments
Link NOC:Welding Metallurgy Lecture 41 - Introduction to Welding Distortion
Link NOC:Welding Metallurgy Lecture 42 - Types of Welding Distortions
Link NOC:Welding Metallurgy Lecture 43 - Angular Distortions in Welds
Link NOC:Welding Metallurgy Lecture 44 - Bowing, Buckling and Twisting in Welds
Link NOC:Welding Metallurgy Lecture 45 - Control of Distortion in Welds
Link NOC:Welding Metallurgy Lecture 46 - Introduction to Cracks in Welds
Link NOC:Welding Metallurgy Lecture 47 - Types of Weld Cracks
Link NOC:Welding Metallurgy Lecture 48 - Specific Weld Cracks
Link NOC:Welding Metallurgy Lecture 49 - Chevron Cracks and Reheat Cracks
Link NOC:Welding Metallurgy Lecture 50 - Lamellar Cracks and Stress Corrosion Cracking
Link NOC:Welding Metallurgy Lecture 51 - Introduction to Weldability of Metals
Link NOC:Welding Metallurgy Lecture 52 - Weldability of Carbon Steels
Link NOC:Welding Metallurgy Lecture 53 - Weldability of Alloy Steels
Link NOC:Welding Metallurgy Lecture 54 - Weldability of Cast Iron
Link NOC:Welding Metallurgy Lecture 55 - Weldability of Non Ferrous Metals and Alloys
Link NOC:Welding Metallurgy Lecture 56 - Introduction to Welding Defects
Link NOC:Welding Metallurgy Lecture 57 - Surface and Subsurface Welding Defects
Link NOC:Welding Metallurgy Lecture 58 - Issues in Welding: Design for Static Loading
Link NOC:Welding Metallurgy Lecture 59 - Considerations for Fatigue Loading in Welding
Link NOC:Welding Metallurgy Lecture 60 - Design Features for Fatigue and Static Loading in Welding
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 1 - Introduction to Continuous Casting Process
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 2 - Role of Tundish in Continuous Casting
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 3 - Types of Continuous Casting Machine
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 4 - Components of Continuous Casting Unit
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 5 - Tundish Metallurgy
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 6 - Introduction to Physical Modeling
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 7 - Concept of Similarity in Physical Modeling
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 8 - Dimensional analysis
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 9 - Physical Modeling of Isothermal and Non-Isothermal system
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 10 - Consideration in Aqueous Modeling
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 11 - Introduction to Stimulus Response Techniques
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 12 - Characterization of Flow
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 13 - Characterization of Flow in Actual Systems
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 14 - Analysis of RTD Curves
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 15 - Plug, Mixed and Dead Regions in Tundish
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 16 - Fluid Flow Fundamentals
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 17 - Mass Conservation Equation
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 18 - Momentum Conservation Equation
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 19 - Energy Conservation Equation
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 20 - Navier Stokes Equations for Newtonian Fluid
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 21 - Introduction to Turbulence in Fluid Flow
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 22 - Characteristics of Turbulent Flow
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 23 - RANS Equations
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 24 - Turbulent Flow Calculations
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 25 - Turbulence Modeling Using k-ɛ Model
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 26 - Introduction to Heat Transfer Phenomena
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 27 - Numerical Methods for Solving Governing Equation
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 28 - Finite Volume Method for Convection and Diffusion Problems
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 29 - Different Discretization Schemes
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 30 - Assessment of Discretization Schemes
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 31 - Elements of Mathematical Modeling in Tundish Steelmaking
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 32 - Boundary Conditions
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 33 - Flow Analysis in Tundish
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 34 - Analysis of Fluid Flow and Mixing in Tundish
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 35 - Non-isothermal Flow Considerations in Tundish
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 36 - Intermixing in Tundish
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 37 - Modeling Consideration For Inclusion Removal in Tundish - I
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 38 - Modeling Consideration For Inclusion Removal in Tundish - II
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 39 - Case Studies in Modeling of Tundish Steelmaking - 1
Link NOC:Modeling of Tundish Steelmaking Process in Continuous Casting Lecture 40 - Case Studies in Modeling of Tundish Steelmaking - 2
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 1 - Introduction
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 2 - Biomaterial
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 3 - Biocompatibility
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 4 - Host response
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 5 - Tissue Eng
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 6 - Scaffold
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 7 - Bone structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 8 - Bone properties
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 9 - Implant - I
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 10 - Implant - II
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 11 - Proteins
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 12 - Cell structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 13 - Bacteria structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 14 - Antibacterial assay
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 15 - Cell fate processes
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 16 - Cell division
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 17 - Cell differentiation
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 18 - Stem cells
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 19 - Osseointegration
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 20 - In vivo testing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 21 - Cell-material interaction
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 22 - Cell-signalling
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 23 - In vitro testing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 24 - Cytotoxicity assays
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 25 - Biocompatibility assay
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 26 - Clinical trials - I
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 27 - Clinical trials - II
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 28 - Metal manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 29 - Ceramics manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 30 - Polymers manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 31 - Additive manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 32 - HA-Ti-Toughness, Cell functionality
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 33 - HA-CaTiO 3 development
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 34 - HA- BaTiO 3 Functional Prop
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 35 - HA-Ag antimicrob and cell viability
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 36 - HA-ZnO, Cell fate and antimicrobial
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 37 - Dental ceramics processing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 38 - Sr-based glass Ceramics
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 39 - Acetabular socket (Compression mold)
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 40 - ZTA femoral ball head fabrication
Link NOC:Iron Making Lecture 1
Link NOC:Iron Making Lecture 2
Link NOC:Iron Making Lecture 3
Link NOC:Iron Making Lecture 4
Link NOC:Iron Making Lecture 5
Link NOC:Iron Making Lecture 6
Link NOC:Iron Making Lecture 7
Link NOC:Iron Making Lecture 8
Link NOC:Iron Making Lecture 9
Link NOC:Iron Making Lecture 10
Link NOC:Iron Making Lecture 11
Link NOC:Iron Making Lecture 12
Link NOC:Iron Making Lecture 13
Link NOC:Iron Making Lecture 14
Link NOC:Iron Making Lecture 15
Link NOC:Iron Making Lecture 16
Link NOC:Iron Making Lecture 17
Link NOC:Iron Making Lecture 18
Link NOC:Iron Making Lecture 19
Link NOC:Iron Making Lecture 20
Link NOC:Iron Making Lecture 21
Link NOC:Iron Making Lecture 22
Link NOC:Iron Making Lecture 23
Link NOC:Iron Making Lecture 24
Link NOC:Iron Making Lecture 25
Link NOC:Iron Making Lecture 26
Link NOC:Iron Making Lecture 27
Link NOC:Iron Making Lecture 28
Link NOC:Iron Making Lecture 29
Link NOC:Iron Making Lecture 30
Link NOC:Iron Making Lecture 31
Link NOC:Iron Making Lecture 32
Link NOC:Iron Making Lecture 33
Link NOC:Iron Making Lecture 34
Link NOC:Iron Making Lecture 35
Link NOC:Iron Making Lecture 36
Link NOC:Iron Making Lecture 37
Link NOC:Iron Making Lecture 38
Link NOC:Iron Making Lecture 39 - Live Session
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 1 - Tribology: Introduction
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 2 - Surfaces and contacts
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 3 - Friction: Laws and mechanisms
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 4 - Contact temperature
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 5 - Lubrication
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 6 - Wear mechanisms: Adhesive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 7 - Wear mechanisms: Abrasive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 8 - Wear mechanisms: Tribochemical wear and Oxidative wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 9 - Wear mechanisms: Fatigue wear and Fretting wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 10 - Wear mechanisms: Erosive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 11 - Overview of tribological materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 12 - Friction and wear of metal matrix composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 13 - Overview: Bioceramics and Biocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 14 - Fabrication of engineering polymers
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 15 - Polymer Ceramic Composites for Orthopedic Applications
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 16 - Processing concepts of ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 17 - Mechanical properties of ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 18 - Fracture and toughening of brittle solids
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 19 - Sliding wear of SiC Ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 20 - Sliding wear of SiC-WC Composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 21 - Friction and wear of HDPE-HA-Al2O3
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 22 - Wear behavior of bioceramics and biocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 23 - Tribological behavior of dental restorative materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 24 - Wear of transformation toughened zirconia
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 25 - Fretting wear of SiAlON Ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 26 - Tribochemistry in wear of cermets
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 27 - Overview: nanoceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 28 - Wear of YSZ nanoceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 29 - Wear behavior of nanostructured WC-ZrO2 nanocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 30 - Erosive wear of SiC-WC composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 31 - Overview: Cryogenic wear properties of materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 32 - Sliding wear of alumina ceramics and zirconia ceramics in cryogenic environment
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 33 - Sliding wear of silicon carbide in cryogenic environment
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 34 - Wear of TiB2 Ceramic Composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 35 - Erosive wear of ultra-high temperature NbB2-based ceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 36 - Erosive wear of ultra-high temperature ZrB2-based ceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 37 - Computational analysis in assessing wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 38 - Basics of ceramics coating techniques
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 39 - Erosive wear of WC-Co coating
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 40 - Abrasive wear of WC-Co coating