Elastoplastic deformations of layered structures

Daria Drozdenko; Michal Knapek; Martin Kru\v{z}\'ik; Kristi\'an; M\'athis; Karel \v{S}vadlenka; Jan Valdman

arXiv:2207.01986·math.AP·July 6, 2022

Elastoplastic deformations of layered structures

Daria Drozdenko, Michal Knapek, Martin Kru\v{z}\'ik, Kristi\'an, M\'athis, Karel \v{S}vadlenka, Jan Valdman

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TL;DR

This paper develops a large-strain elastoplasticity model for layered structures, validated against experimental compression tests on paper stacks, providing insights into their deformation behavior.

Contribution

It introduces a large-strain model of crystal elastoplasticity within the energetic solutions framework, with numerical validation against experiments.

Findings

01

Model accurately predicts layered structure deformation.

02

Numerical results align with experimental compression data.

03

Provides a new approach for simulating layered elastoplastic materials.

Abstract

We formulate a large-strain model of single-slip crystal elastoplasticity in the framework of energetic solutions. Numerical performance of the model is compared with lab experiments on the compression of a stack of note papers.

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Taxonomy

TopicsFluid Dynamics Simulations and Interactions