Effect of polymeric gassing walls during arcing on AgW/AgC contact resistance

Electrical Contacts - 1999. Proceedings of the Forty-Fifth IEEE Holm Conference on Electrical Contacts (Cat. No.99CB36343) Pub Date : 1900-01-01 DOI:10.1109/HOLM.1999.795932

J. Shea

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Abstract

Contact resistance was measured after arcing for AgW moving against a AgC stationary contact pair in an arc chamber. The resistance, measured at five different current levels over the range of 2 kA/sub p/ to 22 kA/sub p/, was obtained using two different arc chamber wall materials, ceramic and polyester, to measure the effects of gas evolution on contact resistance from circuit breaker walls. When compared to results using ceramic walls, polyester walls did not show any statistical difference in contact resistance. However, increased chamber pressure, resulting from ablation of the polyester walls, was measured. SEM photographs and EDS surface mapping measurements showed the change in resistance, for both wall materials, was due to a depletion of silver from the contact surface at mid-range arcing currents and redeposition of silver at higher arcing currents. Discussions include the effect of arc temperature on contact resistance and the various gases, generated by the ablation of the polymer walls, on resistance and arc chamber pressure.

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电弧过程中聚合物气壁对AgW/AgC接触电阻的影响

在电弧室中，测量了AgW与AgC固定接触副接触后的接触电阻。使用陶瓷和聚酯两种不同的电弧室壁材料，在2 kA/sub p/到22 kA/sub p/的范围内测量了五种不同电流水平下的电阻，以测量气体释放对断路器壁接触电阻的影响。与使用陶瓷墙的结果相比，聚酯墙在接触电阻方面没有显示任何统计差异。然而，增加的室压，造成烧蚀的聚酯壁，测量。SEM照片和EDS表面测绘测量显示，对于两种壁材，电阻的变化是由于在中程电弧电流下接触表面的银耗尽和在较高电弧电流下银的再沉积。讨论了电弧温度对接触电阻的影响，以及由聚合物壁烧蚀产生的各种气体对电阻和电弧室压力的影响。

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Electrical Contacts - 1999. Proceedings of the Forty-Fifth IEEE Holm Conference on Electrical Contacts (Cat. No.99CB36343)

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