Fracture Mechanics: Crack Growth and Stress Intensity Factor

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Page 3 of 4

Explores critical strain, bending mechanics, and strain calculation in flexible probes.

Covers the Classical Laminate Theory for analyzing stresses in composite laminates.

Introduces the theory behind laminates and their applications in different industries.

Explores Greens functions in solid mechanics, emphasizing the solution of point forces and their impact on displacement fields.

Explores real and nominal strain rates, stress, deformation, and force in materials testing.

Explores the Eshelby method for mechanics of inclusions and eigenstrains, focusing on stress and strain fields inside inclusions.

Covers the concept of toughness of materials, emphasizing resistance to crack propagation and plastic deformation.

Explores deformation, creep, material properties, mechanical tests, ceramics, polymers, metals, and atomic bonds.

Explores crack-tip energy dissipation, cohesive zone modeling, stress intensity, and small-scale yielding in fracture mechanics.

Explores material properties, stress-strain curves, stress concentration, and failure criteria in structural mechanics.