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Fracture of Materials: Exercises Review
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Rubber Elasticity: Theory and Applications
Explores the theory of rubber elasticity, synthetic rubber types, and crosslinking strategies.
Fracture Mechanics: Stress Intensity Factor
Explores stress intensity factor in fracture mechanics, crack propagation prediction, and material ténacité.
Crack Growth: Stress Intensity and Fracture Mechanics
Explores crack growth, stress intensity factors, and fracture mechanics in materials, emphasizing energy considerations and critical stress intensity for crack growth onset.
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Covers exercises on heat and mass transfer, including multimodal heat transfer and transient conduction.
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Explores fracture mechanics of composite materials, discussing fiber characteristics, failure modes, and testing methods.
Fracture Analysis: Energy and Mechanics
Explores macroscopic energy analysis of fracture, focusing on unstable crack growth and energy mechanics.
Fracture Mechanics: Energy Analysis
Explores energy analysis in fracture mechanics, emphasizing unstable crack growth and the importance of compliance in structural behavior.
Fracture Mechanics: Exercises Review
Reviews exercises on fracture mechanics, emphasizing 2D plate calculations and plastic zone effects.
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Explores materials properties, failure criteria, stress-strain curves, and fracture strength.
Rubber Elasticity: Thermodynamic Considerations and Entropic Forces
Explores the thermodynamic nature of rubber elasticity and the entropic forces involved in polymer deformation.
