Precise Measurement of Dark Bridge between Micro-gap Electrical Contacts in a State of Thermal Equilibrium Condition

2005 IEEE Instrumentationand Measurement Technology Conference Proceedings Pub Date : 2005-05-16 DOI:10.1109/IMTC.2005.1604358

H. Ishida, M. Taniguchi, T. Takagi

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引用次数: 4

Abstract

Newly discovered nonluminous (dark) bridge was precisely produced and measured its size by microscopic means. Palladium (Pd) was tested as a typical contact material. The contacts separating system was constructed by using 1 (m) long steel cantilever system. The experiments were carried out with very slow opening speed and observed the bridge growing process with the microscope. The contacts were set at the bottom side of the cantilever and controlled its moving speed (contacts separating speed) by pushing the top of the cantilever, that can reduce the displacement scale with any reduction ratio but we chose it by one-thirtieth (1/30) and we reached the separation speed of 0.05 mum/s that was enough to maintain the thermal equilibrium condition. Both the bridge voltage and the displacement of electrode were monitored and recorded. The microscopic images of the bridge were stored in the computer, from which the size of the bridge was measured for each image and plotted on a graph showing the relationship between bridge length and diameter. The results showed that enough correspond to the theoretical estimation formerly presented by the authors

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热平衡状态下微间隙电触点暗桥的精确测量

对新发现的不发光(暗)桥进行了精密制作，并用显微方法测量了其尺寸。钯(Pd)作为典型的接触材料进行了测试。接触面分离系统采用1 (m)长的悬臂钢结构。实验以极慢的开孔速度进行，并在显微镜下观察桥的生长过程。在悬臂的底部设置触点，通过推动悬臂的顶部来控制其移动速度(触点分离速度)，可以用任意的减小比例减小位移规模，但我们选择了三十分之一(1/30)，我们达到了足以维持热平衡条件的0.05妈/秒的分离速度。对电桥电压和电极位移进行了监测和记录。桥梁的显微图像被储存在计算机中，从每张图像中测量桥梁的大小，并绘制在显示桥梁长度和直径之间关系的图表上。结果表明，与作者先前提出的理论估计有足够的吻合

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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2005 IEEE Instrumentationand Measurement Technology Conference Proceedings

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