A node-based uniform strain virtual element method for elastoplastic solids

Rodrigo Silva-Valenzuela, Alejandro Ortiz-Bernardin, Edoardo Artioli
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Abstract

A recently proposed node-based uniform strain virtual element method (NVEM) is here extended to small strain elastoplastic solids. In the proposed method, the strain is averaged at the nodes from the strain of surrounding linearly-precise virtual elements using a generalization to virtual elements of the node-based uniform strain approach for finite elements. The averaged strain is then used to sample the weak form at the nodes of the mesh leading to a method in which all the field variables, including state and history-dependent variables, are related to the nodes and thus they are tracked only at these locations during the nonlinear computations. Through various elastoplastic benchmark problems, we demonstrate that the NVEM is locking-free while enabling linearly-precise virtual elements to solve elastoplastic solids with accuracy.
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基于节点的弹塑性固体均匀应变虚拟元素法
本文将最近提出的基于节点的均匀应变虚元方法(NVEM)扩展到小应变弹塑性固体。在所提出的方法中,利用有限元基于节点均匀应变方法对虚拟元素的概括,根据周围线性精确虚拟元素的应变对节点处的应变进行平均。然后利用平均应变对网格节点处的弱形式进行采样,从而得到所有场变量(包括状态变量和历史变量)都与节点相关的方法,因此在非线性计算过程中只对节点位置进行跟踪。通过各种弹塑性基准问题,我们证明了 NVEM 是无锁定的,同时使线性精确虚拟元素能够精确求解弹塑性固体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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