Starting a new Lecture Notes Series on Mechanical - Engineering Fracture Mechanics
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So Let Us Start to This Journey of Learning
Mechanical - Engineering Fracture Mechanics By Lecture Notes together!
Lecture 1: Mod-01 Lec-01 EFM Course Outline
Lecture 2: Spectacular Failures
Lecture 3: Lessons from Spectacular Failures
Lecture 4: LEFM and EPFM
Lecture 5: Fracture Mechanics is Holistic
Lecture 6: Fatigue Crack Growth Model
Lecture 7: Crack Growth and Fracture Mechanisms
Lecture 8: Elastic Strain Energy
Lecture 9: Fracture Strength by Griffith
Lecture 10: Energy Release Rate
Lecture 11: Utility of Energy Release Rate
Lecture 12: Pop-in Phenomenon
Lecture 13: Displacement and Stress Formulations
Lecture 14: Forms of Stress Funcitons
Lecture 15: Airy's Stress Function for Mode-I
Lecture 16: Westergaard Solution of Stress Field for Mode-I
Lecture 17: Displacement Field for Mode-I
Lecture 18: Relationship between KI and GI
Lecture 19: Stress Field in Mode-II
Lecture 20: Mod-04 Lec-20 Generalised Westergaard Approach
Lecture 21: Mod-04 Lec-21 William's Eigen Function Approach
Lecture 24: Mod-05 Lec-24 Discussion Session-I
Lecture 25: Evaluation of SIF for Various Geometries
Lecture 26: SIF for Embedded Cracks
Lecture 27: SIF for Surface Cracks
Lecture 28: Modeling of Plastic Deformation
Lecture 29: Irwin's Model
Lecture 30: Dugdale Model
Lecture 31: Fracture Toughness Testing
Lecture 32: Plane Strain Fracture Toughness Testing
Lecture 34: Paris Law and Sigmoidal Curve
Lecture 35: Crack Closure
Lecture 36: Crack Growth Models
Lecture 37: J-Integral
Lecture 38: HRR Fields and CTOD
Lecture 39: FAD and Mixed Mode Fracture
Lecture 40: Crack Arrest and Repair Methodologies
Lecture 41: Mod-09 Lec-41 Discussion Session - II