An Experimental Study to Show the Behavior of Electrical Contact Resistance and Coefficient of Friction at Low Current Sliding Electrical Interfaces

2011 IEEE 57th Holm Conference on Electrical Contacts (Holm) Pub Date : 2011-10-06 DOI:10.1109/HOLM.2011.6034813

V. Siddeswara Prasad, P. Misra, J. Nagaraju

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引用次数: 6

Abstract

Electrical contact resistance (ECR) and coefficient of friction (COF) are the two parameters that characterize the performance of sliding electrical contacts. Due to geometrical minuteness of the electrical and mechanical phenomena occurring at the sliding interface, it has been extremely difficult to develop widely applicable theoretical models and analytical correlations. Consequently, experimental studies gain importance as the contact manufacturers have to depend on the available experimental data. The scope of present work is limited to light duty sliding contacts, which are commonly used in various radio-electronic devices and control and automated systems. Experimental studies conducted on oxygen-free high conductivity (OFHC) Cu contacts are presented in this paper. Effect of normal force, surface roughness, initial run-in, sliding speed, and liquid lubricants on ECR and COF is studied. Experiments are conducted with the help of indigenously developed test setup, consisting of a reciprocating pin-on-flat sliding arrangement. All contacts showed a decrease in ECR with increase in normal force. At small speeds (��U 1.0 mm/s), both ECR and COF are found to be independent of sliding speed. A significant decrease in ECR and COF is observed with progressive sliding during the initial cycles. Roughness of the flat sample is found to have significant effect on ECR and COF, especially during initial sliding cycles. Contacts exhibited an inverse relationship between ECR and COF in the mild wear regime (0.2 < COF ��U 0.4). Liquid lubricants having low viscosity exhibited reasonably low values of ECR and COF for prolonged sliding duration. Presence of wear debris at the sliding zone is found to have significant effect on both ECR and COF. Wear of the sliding surfaces is analyzed using scanning electron microscopy (SEM) and correlated with the observed behavior of ECR and COF.

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小电流滑动电界面接触电阻和摩擦系数特性的实验研究

电接触电阻(ECR)和摩擦系数(COF)是表征滑动电触点性能的两个参数。由于在滑动界面处发生的电气和机械现象的几何细微性，建立广泛适用的理论模型和分析相关性是极其困难的。因此，实验研究变得重要，因为接触制造商必须依赖于可用的实验数据。目前的工作范围仅限于轻型滑动触点，这些触点通常用于各种无线电电子设备以及控制和自动化系统。本文对无氧高导电性铜触点进行了实验研究。研究了法向力、表面粗糙度、初始磨合、滑动速度和液体润滑剂对ECR和COF的影响。实验是在自主开发的测试装置的帮助下进行的，该装置由一个往复的销-平滑动装置组成。所有接触均显示ECR随法向力的增加而降低。在小速度下(1.0 mm/s)， ECR和COF与滑动速度无关。ECR和COF在初始循环中随渐进式滑动而显著降低。发现平面试样的粗糙度对ECR和COF有显著影响，特别是在初始滑动循环期间。轻度磨损状态下，ECR与COF呈负相关(0.2 < COF, 0.4)。具有低粘度的液体润滑剂在较长的滑动持续时间内表现出较低的ECR和COF值。在滑动区存在磨损碎屑对ECR和COF都有显著影响。利用扫描电子显微镜(SEM)分析了滑动表面的磨损，并将其与所观察到的ECR和COF行为进行了关联。

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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2011 IEEE 57th Holm Conference on Electrical Contacts (Holm)

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