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Lecture
Hyperelasticity: Models for Hyperelastic Materials
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Related lectures (32)
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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.
Linear Elasticity: Channel Die Compression with Friction
Explores linear elasticity in confined compression with friction and stress distributions.
Linear Elasticity: Equations of Linear Elasticity
Covers the equations of linear elasticity for static problems with small strain, emphasizing uniqueness of solutions and Navier's Equations.
Hyperelasticity: Basic Theory and Applications
Covers hyperelasticity basics, including stress-strain response, energy density, and isotropic materials.
Solid Mechanics Principles: Greens Functions
Explores Greens functions in solid mechanics, emphasizing the solution of point forces and their impact on displacement fields.
Homogenization Theory: Isotropic Phases and Laminated Plates
Explores the rigorous bounds on effective properties of isotropic phases and laminated plates.
Laminate Analysis: Introduction
Introduces the theory behind laminates and their applications in different industries.
Solid Mechanics Principles: Eigenstrains
Covers eigenstrains, deformations in a body not caused by stress, and their significance in mechanics.
Structural Mechanics: Beam Bending and Boundary Conditions
Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.
Linear Elasticity: Cylindrically-symmetric Problems
Covers linear elasticity, focusing on cylindrically-symmetric problems and the simplification of Hooke's Law for axially-symmetric cases.
