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Plates I: Deformation, Strain, Stress, and Wrinkling
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Deformation and Strain Tensors
Explores deformation and strain tensors, Lagrange representation, elasticity theory, and the divergence theorem.
Plates I: Deformation and Energy
Covers the deformation of plates in pure bending, total strain energy, and wrinkling phenomena, exploring applications and implications of substrate stiffness on wrinkling.
Nonlinear beam theory
Covers strain-displacement relations, equilibrium equations, and energy functional in nonlinear beam theory with small strain and moderate rotation.
Linear Elasticity in 3D: Beam Bending
Covers linear elasticity in 3D, focusing on beam bending and stress-strain behavior of materials.
Plates II: Föppl-von Kármán Equations
Explores the theory of plates, including bending and stretching energies, and the Föppl-von Kármán Equations.
Plates III: Buckling Theory and Applications
Explores Föppl-von Kármán plate theory, including buckling equations and an example of plate compression.
Stiffness vs Strength: Deformation and Load
Covers stiffness, strength, strain, stress, and strain measurement in structural mechanics.
Stress and Strain: Real vs Nominal
Explores real and nominal strain rates, stress, deformation, and force in materials testing.
Introduction to Structural Mechanics: Stress and Strain
Covers stress equilibrium, strain, and constitutive equations in 2D and 3D.
Elastic Deformation: Material Properties
Explores material properties, stress, strain, and deformation gradient in elastic deformation.
