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Lecture
Fracture Mechanics: Energy Release Rate and Stress Field Analysis
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Related lectures (30)
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Mechanical Tests: Creep and Fracture Mechanics
Explores creep tests, deformation, and fracture mechanics in mechanical tests.
Fracture Mechanics: Cohesive Zone Model
Explores crack-tip energy dissipation, cohesive zone model analysis, small-scale yielding, stress fields near crack tips, and atomistic stress results.
Failure Criteria: Ductile and Brittle Materials
Covers strain hardening, stress, fracture, yield strength, failure theories for ductile and brittle materials, and safety factors.
Fatigue Phenomenon: Material Level
Explores crack development stages in fatigue phenomenon at the material level.
Fracture of Materials: Revision
Covers fracture mechanics, stress intensity factor, rubber testing, and high-speed testing in materials.
Fracture Mechanics: Elliptical Cracks
Analyzes elliptical cracks in materials under different loading modes and discusses the influence of stress state and material toughness.
Cohesive Zone in Fracture Mechanics
Explores crack-tip energy dissipation, the Cohesive Zone concept, and Atomistic Cohesive Zone Law in fracture mechanics.
Fracture Mechanics: Mixed-Mode Energy Release Rate
Explores fracture mechanics, focusing on energy release rate in mixed-mode loading conditions and crack growth directions.
Materials Fatigue: Fracture and Toughness
Explores fatigue, fracture toughness, stress intensity, and crack propagation in materials.
Macromechanics of Orthotropic Composites
Explores the behavior of orthotropic composites under plane stresses and the elasticity of anisotropic materials.
