A numerical investigation on Contact Mechanics applications using eight-node hexahedral elements with underintegration techniques

IF 1.4 4区 工程技术 Q3 ENGINEERING, CIVIL
M. Visintainer, E. Bittencourt, A. L. Braun
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引用次数: 1

Abstract

Abstract In the present work the performance of finite element formulations with different reduced integration strategies is evaluated for Contact Mechanics applications. One-point quadrature and selective reduced integration are utilized here using hourglass control to suppress volumetric and shear locking for materials with incompressible plastic behavior and bending-dominated problems. A corotational formulation is adopted to deal with physically and geometrically nonlinear analysis and the generalized-α method is employed for time integration in the nonlinear dynamic range. The contact formulation is based on the penalty method, where the classical Coulomb’s law is used considering a convected coordinate system for three-dimensional friction with large deformation and finite sliding. Contact problems involving deformable and rigid bodies, as well as static and dynamic analysis, are investigated and results are analyzed considering the different underintegration formulations proposed here.
欠积分八节点六面体单元接触力学应用数值研究
摘要在本工作中,评估了具有不同降阶积分策略的有限元公式在接触力学应用中的性能。对于具有不可压缩塑性行为和弯曲主导问题的材料,本文使用沙漏控制来抑制体积和剪切锁定,从而利用单点求积和选择性降阶积分。采用共旋公式处理物理和几何非线性分析,并采用广义-α方法进行非线性动态范围内的时间积分。接触公式基于惩罚法,其中使用经典库仑定律来考虑具有大变形和有限滑动的三维摩擦的对流坐标系。研究了涉及变形体和刚体的接触问题,以及静态和动态分析,并考虑到本文提出的不同欠积分公式对结果进行了分析。
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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来源期刊
CiteScore
2.80
自引率
8.30%
发文量
37
审稿时长
>12 weeks
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