Lecture 1 - Structure of Solids
Lecture 2 - Microstructure of Solids
Lecture 3 - Defects in Crystalline Solids
Lecture 4 - Surface and Surface Energy
Lecture 5 - Surface Properties-due to mechanical activation
Lecture 6 - Surface dependent physical and chemical property
Lecture 7 - Surface Dependent Properties and Surface initiated Degradation
Lecture 8 - Fatigue
Lecture 9 - Wear Part - I
Lecture 10 - Wear Part - II
Lecture 11 - Wear Part - III
Lecture 12 - Corrosion - I
Lecture 13 - Corrosion - II
Lecture 14 - Corrosion - III
Lecture 15 - Corrosion - IV
Lecture 16 - Corrosion - V
Lecture 17 - Classification of Surface engineering
Lecture 18 - Strengthening of metals
Lecture 19 - Strengthening of Non-Metals
Lecture 20 - Diffusive transformation in Steel
Lecture 21 - Non-Diffusive transformation in Steel
Lecture 22 - Shot Peening
Lecture 23 - Shot Peening and Rolling
Lecture 24 - Flame Hardening and Induction Hardening
Lecture 25 - Case Carburizing
Lecture 26 - Liquid Carburizing and Gas Carburizing
Lecture 27 - Gas Nitriding
Lecture 28 - Liquid and Salt Bath Nitriding
Lecture 29 - Plasma Nitriding and Ion Implantation
Lecture 30 - Heat treatment after carburizing and Nitriding
Lecture 31 - Diffusion Coating Principle
Lecture 32 - Diffusion Coating Processes
Lecture 33 - Thick Coating by Cladding
Lecture 34 - High Temperature Degradation
Lecture 35 - Corrosion Prevention
Lecture 36 - Chemical Conversion Coating
Lecture 37 - Electroconversion Coating
Lecture 38 - Electro and Electroless Deposition Process
Lecture 39 - Hot Dipping - I
Lecture 40 - Hot Dipping - II
Lecture 41 - Thermal Spray Deposition - I
Lecture 42 - Thermal Spray Deposition - II
Lecture 43 - Thermal Spray Deposition - III
Lecture 44 - Thermal Spray Deposition - IV
Lecture 45 - Physical Vapur Deposition (PVD)
Lecture 46 - Sputtering
Lecture 47 - Chemical Vapor Deposition (CVD)
Lecture 48 - Composite Coating
Lecture 49 - Ion Implantation - I
Lecture 50 - Ion Implantation - II
Lecture 51 - Electron Beam Welding
Lecture 52 - Electron Beam Surface engineering
Lecture 53 - Laser Materials Processing: Introduction
Lecture 54 - Laser Assisted Materials Processing:Processes
Lecture 55 - Laser Surface Engineering:Hardening and Melting
Lecture 56 - Laser Surface Engineering with Laser surface hardening and laser surface melting
Lecture 57 - Laser Surface Alloying
Lecture 58 - Laser Surface Cladding
Lecture 59 - Surface Damage - Case Studies
Lecture 60 - Overview and Conclusion