厚度和刚性弹性消失极限下单滑晶塑性的渐近分析

IF 1.3 3区数学 Q1 MATHEMATICS

Advances in Calculus of Variations Pub Date : 2024-01-10 DOI:10.1515/acv-2023-0009

Dominik Engl, Stefan Krömer, Martin Kružík

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引用次数: 0

摘要

我们通过Γ-收敛对大变形中的单滑动弹塑性体进行 2d-1d 维度缩减分析。我们考虑了刚性塑性和弹塑性状态。我们特别指出，即使受到与弹性刚性单滑移状态相对应的最严格约束，极限变形基本上也能自由弯曲。主要的挑战出现在上界，在这里，差分约束使得在不产生额外能量成本的情况下进行任何弯曲都特别困难。我们利用合适的非光滑结构克服了这一障碍，并证明如果我们人为地将模型限制为光滑变形，就会出现拉夫伦捷夫现象。如果适当软化微分约束，则不会出现这一问题。

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Asymptotic analysis of single-slip crystal plasticity in the limit of vanishing thickness and rigid elasticity

We perform via Γ-convergence a 2d-1d dimension reduction analysis of a single-slip elastoplastic body in large deformations. Rigid plastic and elastoplastic regimes are considered. In particular, we show that limit deformations can essentially freely bend even if subjected to the most restrictive constraints corresponding to the elastically rigid single-slip regime. The primary challenge arises in the upper bound where the differential constraints render any bending without incurring an additional energy cost particularly difficult. We overcome this obstacle with suitable non-smooth constructions and prove that a Lavrentiev phenomenon occurs if we artificially restrict our model to smooth deformations. This issue is absent if the differential constraints are appropriately softened.

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来源期刊

Advances in Calculus of Variations MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

3.90

自引率

5.90%

发文量

审稿时长

>12 weeks

期刊介绍： Advances in Calculus of Variations publishes high quality original research focusing on that part of calculus of variation and related applications which combines tools and methods from partial differential equations with geometrical techniques.