Shape Optimization for Anisotropic Elastoplasticity in Logarithmic Strain Space

Germain S, Steinmann P (2011)


Publication Type: Conference contribution

Publication year: 2011

Edited Volumes: Computational Plasticity XI - Fundamentals and Applications, COMPLAS XI

Pages Range: 1479-1490

Conference Proceedings Title: COMPLAS XI Proceeding (CD)

Event location: Barcelona, Spain ES

Abstract

This paper deals with shape optimization for anisotropic elastoplasticity in logarithmic strain space. We aim to find an appropriate undeformed configuration of a workpiece knowing in advance its deformed configuration, the boundary conditions and the applied loads. The node coordinates of the finite element (FE) domain are chosen as design variables. A discrete sensitivity analysis is presented and analytical gradients are performed. A numerical example illustrates the theoretical aspects.

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How to cite

APA:

Germain, S., & Steinmann, P. (2011). Shape Optimization for Anisotropic Elastoplasticity in Logarithmic Strain Space. In COMPLAS XI Proceeding (CD) (pp. 1479-1490). Barcelona, Spain, ES.

MLA:

Germain, Sandrine, and Paul Steinmann. "Shape Optimization for Anisotropic Elastoplasticity in Logarithmic Strain Space." Proceedings of the XI International Conference on Computational plasticity - Fundamentals and Applications, Barcelona, Spain 2011. 1479-1490.

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