Crack Growth: Stress Intensity and Fracture Mechanics

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Fracture Mechanics: Atomistic Cohesive Zone Law

Explores fracture mechanics, cohesive zone modeling, and crack growth behavior under varying stress levels, emphasizing the Atomistic Cohesive Zone Law.

Classical Laminate Theory

Covers Classical Laminate Theory for solving mechanics problems with multiple material layers, discussing displacements, strains, stresses, and equilibrium.

Fracture and Toughness of Materials

Explores fracture, toughness, and crack propagation in materials, emphasizing surface energy and material resistance.

Rigorous Bounds: Isotropic Phases

Explores rigorous upper and lower bounds for isotropic phase composites and their microstructure arrangement, focusing on laminated plates and stress-strain relationships.

Laminate Analysis: Stresses and Failures

Covers the analysis of stresses and failures in laminated composites, including the computation of stresses at the ply level.

Fracture Mechanics: Exercises Review

Covers exercises on fracture mechanics, stress factors, and material behavior.

Lamination: Deformation, Ductility, and Dislocations

Explores lamination, ductility, plastic deformation, and dislocations in materials, emphasizing the effects of strain rate and temperature.

Fracture Mechanics: Materials and Testing

Covers fracture mechanics basics, challenges in testing materials, and the Essential Work of Fracture method.

Structural Mechanics: Basics and Applications

Covers the basics of structural mechanics, including forces, materials behavior, and failure mechanisms, along with advanced topics and a historical overview.

Failure Criteria: Ductile and Brittle Materials

Covers strain hardening, stress, fracture, yield strength, failure theories for ductile and brittle materials, and safety factors.