Calculus of Variations and Geometric Measure Theory
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E. Davoli - C. Kreisbeck

On static and evolutionary homogenization in crystal plasticity for stratified composites

created by davoli on 30 Jul 2021

[BibTeX]

Submitted Paper

Inserted: 30 jul 2021
Last Updated: 30 jul 2021

Year: 2021

Abstract:

The starting point for this work is a static macroscopic model for a high-contrast layered material in single-slip finite crystal plasticity, identified in Christowiak & Kreisbeck, Calc. Var. PDE (2017) as a homogenization limit via Gamma-convergence. First, we analyze the minimizers of this limit model, addressing the question of uniqueness and deriving necessary conditions. In particular, it turns out that at least one of the defining quantities of an energetically optimal deformation, namely the rotation and the shear variable, is uniquely determined, and we identify conditions that give rise to a trivial material response in the sense of rigid-body motions. The second part is concerned with extending the static homogenization to an evolutionary Gamma- convergence-type result for rate-independent systems in specific scenarios, that is, under certain assumptions on the slip systems and suitable regularizations of the energies, where energetic and dissipative effects decouple in the limit. Interestingly, when the slip direction is aligned with the layered microstructure, the limiting system is purely energetic, which can be interpreted as a loss of dissipation through homogenization.

Keywords: Homogenization, Gamma-convergence, composite materials, finite crystal plasticity


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