Lecture 1 - Theoretical Strength
Lecture 2 - Stress Based Approach (Inglis)
Lecture 3 - Energy Based Approach (Griifith)
Lecture 4 - Mode of Deformation and Stress Distribution Ahead of Crack Tip
Lecture 5 - Stress Triaxiality
Lecture 6 - Plastic Zone Size
Lecture 7 - Plastic Zone Size and Shape (Continued...)
Lecture 8 - Stress Intensity Factors for Different Geometries
Lecture 9 - Fracture Toughness
Lecture 10 - Fracture Toughness Measurement
Lecture 11 - Fracture Mechanisms
Lecture 12 - Ductile Fracture Mechanisms
Lecture 13 - Ductile Fracture Mechanisms_Tunneling
Lecture 14 - Cleavage Fracture
Lecture 15 - Fracture Mechanisms (Images)
Lecture 16 - Fatigue (Stress Parameters)
Lecture 17 - Fatigue Testing (S-N curve)
Lecture 18 - Low and High Cycle Fatigue
Lecture 19 - Fatigue Crack Initiation
Lecture 20 - Fatigue Crack Propagation
Lecture 21 - Fatigue Striations, Beachmarks and Images
Lecture 22 - Deformation of Composites
Lecture 23 - Deformation of Composites (Continued...)
Lecture 24 - Toughening of Ceramics
Lecture 25 - Fracture in Polymers
Lecture 26 - Creep Fundamentals
Lecture 27 - Creep Models
