Author:
Tao Ling,Li Zhongpan,Li Yan,Chen Huijian,Feng Zhiqiang
Abstract
AbstractThis paper aims to explore the deformation of the collided bodies in multi-body systems and to effectively simulate the motion path of colliding bodies. First, we describe the geometrically nonlinear problems of materials by the total Lagrangian formulation. Second, a first-order integration scheme is used to solve the dynamics equations. An algorithm combining the bi-potential method with the node-to-point contact identification is proposed to solve the interface problems of rigid-flexible interaction collision. To observe the collision process more intuitively, the internal software FER/VIEW is introduced to visualize the results. The accuracy is proved by comparing the proposed method with the analytical solution or another numerical solution. Moreover, the proposed method has more numerical robustness, such as occupying less computer storage, saving the computational cost, and broadening the application range of the bi-potential method.
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Mechanical Engineering,Mechanics of Materials
Reference36 articles.
1. TIMOSHENKO, S. P. and GOODIER, J. N. Theory of Elasticity, McGraw-Hill, New York, 343–395 (1951)
2. JOHNSON, K. L. Contact Mechanics, Cambridge University Press, Cambridge, 1–425 (1987)
3. WRIGGERS, P. Computational Contact Mechanics, Springer, New York, 11–473 (2006)
4. ACARY, V. Numerical Methods for Nonsmooth Dynamical Systems: Applications in Mechanics and Electronics, Springer, New York, 1–165 (2008)
5. BROGLIATO, B. Nonsmooth Mechanics, Springer, New York, 1–477 (2016)
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