Evaluation of contact surface configuration with a scanning laser microscope

K. Niizuma, M. Hasegawa
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引用次数: 4

Abstract

Arc discharge between contact electrodes brings material transfer and erosion, which sometimes cause serious contact failure. To achieve better reliability and longer life of electromechanical components, characteristics of material transfer and arc erosion of each contact material under different load conditions have to be studied. However, no effective methods for gathering numerical 3D information on contact surfaces have been available. In this paper, the theory and system of a scanning laser microscope is explained, which is confirmed to be useful equipment for this purpose. A confocal optical system and a focus scan memory of the equipment enable us to measure depth of craters and height of pips on contact surfaces in a short time without damaging specimens. By processing the measured data with an image-data processing software, 3D images of contact surfaces are displayed and volume of craters and pips is easily calculated. Relay contact surfaces operated in a capacitive load circuit are numerically evaluated with the scanning laser microscope. The 3D data such as height, depth and volume of craters and pips are measured and material transfer rate per unit arc energy is calculated. The results are shown to confirm how useful the equipment is for investigation of electrical contacts.
用扫描激光显微镜评价接触面结构
接触电极之间的电弧放电会引起材料转移和侵蚀,有时会导致严重的接触失效。为了提高机电部件的可靠性和寿命,需要研究不同负载条件下各种接触材料的材料传递特性和电弧侵蚀特性。然而,目前还没有有效的方法来收集接触面的数值三维信息。本文介绍了扫描激光显微镜的原理和系统,证实了扫描激光显微镜是一种有用的仪器。设备的共聚焦光学系统和聚焦扫描存储器使我们能够在短时间内测量接触面上的陨石坑深度和点的高度,而不会损坏样品。利用图像数据处理软件对测量数据进行处理,可显示接触面的三维图像,并可方便地计算出凹坑和凸点的体积。用扫描激光显微镜对电容负载电路中的继电器接触面进行了数值计算。测量弹坑和爆点的高度、深度、体积等三维数据,计算单位电弧能量的物质传输速率。结果表明,证实了该设备是如何有用的调查电接触。
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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