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Lecture
Linear Elasticity: Basics and Material Functions
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Related lectures (32)
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Solid Mechanics Principles: Eigenstrains
Covers eigenstrains, deformations in a body not caused by stress, and their significance in mechanics.
Shock Waves and Brittle Material Response
Covers shock waves, brittle material response, phase transformation, and Hugoniot relationships in materials under stress.
Eshelby 3: Modulus Mismatch
Covers modulus mismatch in elastic inhomogeneities, Eshelby's solution, and the implications of using Green's function.
Axial Loading: Stress and Strain in Deformable Bodies
Covers axial loading, stress, strain, and their implications in deformable bodies.
Generalized Hooke Law: 3D
Explores the Generalized Hooke Law in 3D, stress-strain relationships, and material properties.
Elasticity and Beam Bending
Explores linear elasticity, stress-strain relationships, and beam bending kinematics with a focus on stress tensors and internal forces.
Linear Elasticity and Atomic Structure
Explores linear elasticity properties of materials and their atomic structure, covering stresses, strains, rigidity, and loading cases.
Elasticity: Constitutive Modelling in Geomechanics
Explores constitutive equations in geomechanics, stress-strain behavior, and practical applications in engineering.
Elasticity: Constitutive Modelling in Geomechanics
Explores constitutive modelling in geomechanics, focusing on stress-strain behavior and the application of elastic models in analytical and numerical methods.
Hyperelasticity: Models for Hyperelastic Materials
Explores hyperelasticity, constitutive models, incompressibility, and stiffness response in isotropic materials.
