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Lecture
Classical Laminate Theory
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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.
Laminate Analysis: Introduction
Introduces the theory behind laminates and their applications in different industries.
Mechanics of Slender Structures: Elasticity & Buckling
Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.
Eshelby Inclusion: Mechanics and Eigenstrains
Explores the Eshelby method for mechanics of inclusions and eigenstrains, focusing on stress and strain fields inside inclusions.
Fracture Mechanics: Crack Growth and Weakest Link
Explores fracture mechanics, crack growth, and the weakest link theory, emphasizing the statistical distribution of crack sizes and the significance of the largest crack in material failure.
Laminate Analysis: Stresses and Failures
Covers the analysis of stresses and failures in laminated composites, including the computation of stresses at the ply level.
Homogenization Theory: Isotropic Phases and Laminated Plates
Explores the rigorous bounds on effective properties of isotropic phases and laminated plates.
Solid Mechanics Principles: Greens Functions
Explores Greens functions in solid mechanics, emphasizing the solution of point forces and their impact on displacement fields.
Classical Laminate Theory: Analysis & Equilibrium
Covers the Classical Laminate Theory and its analysis of displacements, strains, stresses, and equilibrium in laminated composites.
Composite Laminate Analysis
Covers the Classical Laminate Theory for analyzing stresses in composite laminates.
