Eshelby Inclusion: Mechanics and Eigenstrains

Related lectures (32)

Page 3 of 4

Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.

Explains principal stresses, spectral decomposition, simple states of stress, and the importance of a symmetric stress tensor.

Discusses stress concentrations, modulus mismatch, and eigenstrains in materials.

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

Introduces the study of geomechanics, covering the behavior of soils, rocks, and concrete in civil engineering applications.

Explores small strain theory, kinematics, and compatibility conditions in solid mechanics.

Explores solving displacement field by point forces using Green's functions and integration process to obtain total solution.

Introduces 3D linear elasticity, beams, dimensional analysis, and mechanics of slender structures.

Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.

Explores linear elasticity in confined compression with friction and stress distributions.