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Lecture
Fracture Mechanics: Cohesive Zone Model
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Related lectures (30)
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Fracture and Toughness of Materials
Covers stress intensity, fracture, and toughness of materials, including the behavior of ductile and brittle materials.
Fracture Mechanics: Cohesive Zone Modeling
Explores crack-tip energy dissipation, cohesive zone modeling, stress intensity, and small-scale yielding in fracture mechanics.
Crack Tip Plasticity in Materials
Explores crack tip plasticity in materials, emphasizing the importance of the plastic zone in crack resistance.
Toughness of Materials
Covers the concept of toughness of materials, emphasizing resistance to crack propagation and plastic deformation.
Fracture Mechanics: Crack Growth and Weakest Link
Explores fracture mechanics, crack growth, and the weakest link theory, emphasizing the statistical distribution of crack sizes and the significance of the largest crack in material failure.
Fracture Mechanics: Introduction and Crack Growth Analysis
Covers the basics of fracture mechanics, including crack shape and growth analysis.
Fracture Mechanics: Stress Intensity Factor and Crack Growth
Explores stress intensity factors, crack-tip energy dissipation, and the effect of cracks on modulus in fracture mechanics.
Failure Criteria: Ductile and Brittle Materials
Covers strain hardening, stress, fracture, yield strength, failure theories for ductile and brittle materials, and safety factors.
Fracture of Materials: Revision
Covers fracture mechanics, stress intensity factor, rubber testing, and high-speed testing in materials.
Fracture Mechanics: Crack Growth and Stress Intensity Factor
Explores crack growth, stress intensity factor, and fracture toughness in materials.
