An improved point-to-surface contact algorithm with penalty method for peridynamics

arXiv - CS - Computational Engineering, Finance, and Science Pub Date : 2024-08-13 DOI:arxiv-2408.06556

Haoran Zhang, Lisheng Liu, Xin Lai, Jun Li

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Abstract

It is significantly challenging to obtain accurate contact forces in peridynamics (PD) simulations due to the difficulty of surface particles identification, particularly for complex geometries. Here, an improved point-to-surface contact model is proposed for PD with high accuracy. First, the outer surface is identified using the eigenvalue method and then we construct a Verlet list to identify potential contact particle pairs efficiently. Subsequently, a point-to-surface contact search algorithm is utilized to determine precise contact locations with the penalty function method calculating the contact force. Finally, the accuracy of this point-to-surface contact model is validated through several representative contact examples. The results demonstrate that the point-to-surface contact model model can predict contact forces and deformations with high accuracy, aligning well with the classical Hertz contact theory solutions. This work presents a contact model for PD that automatically recognizes external surface particles and accurately calculates the contact force, which provides guidance for the study of multi-body contact as well as complex contact situations.

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改进的点对面接触算法与周动力学惩罚法

在过流体力学（PD）模拟中，由于表面颗粒识别困难，尤其是在复杂几何形状下，要获得精确的接触力非常具有挑战性。本文提出了一种改进的高精度点对面接触模型。首先，使用特征值方法识别外表面，然后构建一个 Verlet 列表来有效识别潜在的接触粒子对。随后，利用点到面接触搜索算法确定精确的接触位置，并用惩罚函数法计算接触力。最后，通过几个有代表性的接触实例验证了这种点对面接触模型的准确性。结果表明，点到面接触模型可以高精度地预测接触力和变形，与经典的赫兹接触理论解法非常吻合。本研究提出了一种可自动识别外表面颗粒并精确计算接触力的点对点接触模型，为多体接触和复杂接触情况的研究提供了指导。

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arXiv - CS - Computational Engineering, Finance, and Science

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