Power flux brought by an electric arc on Ag-SnO2 electrodes

2017 IEEE Holm Conference on Electrical Contacts Pub Date : 2017-09-01 DOI:10.1109/HOLM.2017.8088087
R. Landfried, F. Houzé, T. Leblanc, P. Teste
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Abstract

In this paper a method is described which allows estimating the power flux brought by an electric arc on the electrodes. This information is highly important for the understanding of contact erosion mechanisms, as well as for the practical choice of appropriate materials and sizes in switching devices applications. Our method is applied to the case of Ag-SnO2 electrodes. Compatibility conditions between experimental values of mass loss in well-defined situations and numerical calculations of melted/vaporized metal lead to a maximum surface power density of 8×109 W/m2 for cathode and 2×109 W/m2 for anode. Moreover it is found that less than 16% of the total power brought to the electrodes contributes to metal phase changes.
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电弧在Ag-SnO2电极上产生的功率通量
本文介绍了一种估算电弧在电极上产生的功率通量的方法。这些信息对于了解接触侵蚀机制以及在开关器件应用中选择合适的材料和尺寸非常重要。我们的方法适用于Ag-SnO2电极的情况。在定义良好的情况下,质量损失的实验值与熔化/汽化金属的数值计算之间的相容条件导致阴极和阳极的最大表面功率密度分别为8×109 W/m2和2×109 W/m2。此外,还发现,只有不到16%的总功率带到电极有助于金属相变。
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2017 IEEE Holm Conference on Electrical Contacts
2017 IEEE Holm Conference on Electrical Contacts
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