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Lecture
Solid Mechanics Principles: Eigenstrains
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Related lectures (32)
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Mechanics of Slender Structures: Final Review and Overview
Covers the main learning objectives of ME-411, focusing on dimensional analysis, scalings, and mechanical elements.
Von-Mises Plasticity: Yield Criteria and Stress Invariants
Explores the Von-Mises plasticity theory, discussing yield criteria and stress invariants.
Introduction to Structural Mechanics: Stress and Strain
Covers stress equilibrium, strain, and constitutive equations in 2D and 3D.
Introduction to Structural Mechanics
Covers the basics of structural mechanics, including static forces, stress, strain, and structural elements like bars, cables, trusses, and beams.
Anisotropic Elastic Materials
Covers anisotropic elastic materials, examples, and Voigt notation for stress and strain components, emphasizing the compliance matrix for isotropic materials.
3D Linear Elasticity & Beams
Covers 3D linear elasticity, stress, strain, beams' behavior under loads, and torsion.
3D Linear Elasticity & Beams
Introduces 3D linear elasticity, beams, dimensional analysis, and mechanics of slender structures.
Hyperelasticity: Models for Hyperelastic Materials
Explores hyperelasticity, constitutive models, incompressibility, and stiffness response in isotropic materials.
Linear Elasticity in 3D: Beam Bending
Covers linear elasticity in 3D, focusing on beam bending and stress-strain behavior of materials.
Symmetric Stress Tensor
Explains principal stresses, spectral decomposition, simple states of stress, and the importance of a symmetric stress tensor.
