Three-level multi-scale modeling of electrical contacts sensitivity study and experimental validation

2015 IEEE 61st Holm Conference on Electrical Contacts (Holm) Pub Date : 2015-12-17 DOI:10.1109/HOLM.2015.7355130

V. Yastrebov, G. Cailletaud, H. Proudhon, Frederick S. Mballa Mballa, S. Noel, P. Teste, F. Houzé

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引用次数: 8

Abstract

An experimental and numerical study of electrical contact for low currents in sphere-plane set-up is presented. A three-level multi-scale model is proposed. We use the finite element analysis for macroscopic mechanical and electric simulations. It takes into account the setup geometry, elasto-plastic mechanical behavior of contacting components in the finite-strain-plasticity framework and electrostatic properties. A sensitivity analysis with respect to the brass plastic behavior and to the thickness of coating layers is also performed. The finite element results are used for an asperity-based model, which includes elasto-plastic deformation of asperities and their mutual elastic interactions. This model enables us to simulate the real morphology of contact spots at the roughness scale using the experimentally measured surface topography. Finally, the Greenwood multi-spot model is used to estimate the electrical contact resistance. This three-level model yields results which are in good agreement with experimental measurements carried out in this study.

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电触点灵敏度的三级多尺度建模研究及实验验证

对球平面装置中小电流电接触进行了实验和数值研究。提出了一种三级多尺度模型。我们使用有限元分析进行宏观力学和电学模拟。它考虑了装置几何形状、有限应变-塑性框架中接触部件的弹塑性力学行为和静电性能。对黄铜的塑性行为和涂层厚度进行了敏感性分析。有限元结果用于基于粗粒的模型，该模型考虑了粗粒的弹塑性变形及其相互间的弹性相互作用。该模型使我们能够利用实验测量的表面形貌在粗糙度尺度上模拟接触点的真实形态。最后，采用Greenwood多点模型对接触电阻进行估计。这个三级模型的结果与本研究中进行的实验测量结果很好地一致。

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2015 IEEE 61st Holm Conference on Electrical Contacts (Holm)

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