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Lecture
Nonlinear Beam Theory: Mechanics of Slender Structure
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Plates II: Föppl-von Kármán Equations
Explores the theory of plates, including bending and stretching energies, and the Föppl-von Kármán Equations.
Introduction to Structural Mechanics
Covers the fundamentals of structural mechanics, focusing on beams, sign conventions, types of beams, and methods to calculate stress resultants.
Mechanics of Slender Structures: Elasticity & Buckling
Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.
Plates II: Mechanics of Slender Structures
Explores the mechanics of slender structures, discussing plate evaluation, bending energy, and curvature tensors.
Plates I: Deformation, Strain, Stress, and Wrinkling
Covers deformation, strain, stress, and wrinkling in plates under pure bending, exploring applications and bending stiffness.
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.
Introduction to Structural Mechanics
Covers the basics of structural mechanics, including static forces, stress, strain, and structural elements like bars, cables, trusses, and beams.
Mechanics of Slender Structures: Elasticity, Plates, Shells
Covers the dimensional reduction in slender structures, constitutive laws, and mechanics of plates and shells.
Beam Bending II: Internal Forces, Curvature, and Stiffness
Covers advanced topics in beam bending, stress tensors, elasticity, and Atomic Force Microscopy.
Plates: Deformation, Energy, Wrinkling
Covers the deformation of plates in pure bending, total strain energy, and applications like wrinkling.
