Contact and related phenomena, such as friction, wear or elastohydrodynamic lubrication, remain as one of the most challenging problem classes in nonlinear solid and structural mechanics. In the context of their computational treatment with finite element methods (FEM) or isogeometric analysis (IGA), the inherent non-smoothness of contact conditions, the design of robust discretization approaches as well as the implementation of efficient solution schemes seem to provide a never ending source of hard nuts to crack. This is particularly true for the case of beam-to-solid interaction with its mixed-dimensional 1D-3D contact models. Therefore, this contribution gives an overview of current steps being taken, starting from state-of-the-art beam-to-beam (1D) and solid-to-solid (3D) contact algorithms, towards a truly general 1D-3D beam-to-solid contact formulation.
翻译:接触和相关现象,如摩擦、穿戴或流体动力润滑剂等,仍然是非线性固体和结构机械中最具挑战性的问题类别之一,因此,在使用有限元素方法(FEM)或等离子测量分析(IGA)进行计算处理方面,接触条件固有的非移动性、设计稳健的离散方法以及实施高效的解决方案似乎为难以破碎的坚果提供了永无止境的来源,对于以混合维1D-3D接触模型进行梁对固互动的情况尤其如此,因此,这一贡献概述了目前采取的步骤,从最先进的波束到波束(1D)和固态对固态(3D)接触算法开始,走向真正的通用的1D-3D波束到固态。
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