Invariant formulation of phenomenological failure criteria for orthotropic sheets and optimisation of their strength
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Publication:4649032
DOI10.1002/mma.2530zbMath1458.74117OpenAlexW2034120772MaRDI QIDQ4649032
Anita Catapano, Boris Desmorat, Paolo Vannucci
Publication date: 19 November 2012
Published in: Mathematical Methods in the Applied Sciences (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/mma.2530
optimizationanisotropycomposite materialslaminatesclassical linear elasticitypolar methodstrength criteria
Classical linear elasticity (74B05) Composite and mixture properties (74E30) Optimization of other properties in solid mechanics (74P10)
Related Items (10)
The Polar-Isogeometric Method for the Simultaneous Optimization of Shape and Material Properties of Anisotropic Shell Structures ⋮ The design of laminates as a global optimization problem ⋮ Wrinkling of orthotropic membranes: an analysis by the polar method ⋮ Existence of time-periodic solutions for a magnetoelastic system in bounded domains ⋮ Stiffness and strength optimization of the anisotropy distribution for laminated structures ⋮ Convex or non-convex? On the nature of the feasible domain of laminates ⋮ Strength optimisation of variable angle-tow composites through a laminate-level failure criterion ⋮ A Ritz approach for the static analysis of planar pantographic structures modeled with nonlinear Euler-Bernoulli beams ⋮ Anisotropy and shape optimal design of shells by the polar-isogeometric approach ⋮ An alternative to the Kelvin decomposition for plane anisotropic elasticity
Cites Work
- Minimum stress optimal design with the level set method
- Optimal orthotropy for minimum elastic energy by the polar method
- Plane anisotropy by the polar method
- Invariant anisotropic large deformation deterministic and stochastic combined load failure criteria
- A special planar orthotropic material
- Vibration of composite plates with internal supports
- Influence of invariant material parameters on the flexural optimal design of thin anisotropic laminates
- Yield functions/failure criteria for isotropic materials
- A theory of the yielding and plastic flow of anisotropic metals
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