Dielectric surface flashover in vacuum at cryogenic temperature (100 K)

IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 1997-10-19 DOI:10.1109/CEIDP.1997.641139

A. Neuber, H. Krompholz, L. Hatfield

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引用次数: 8

Abstract

Recent developments in high power systems use cryogenic components, where the performance of insulators at such low temperatures is unknown. In a fast coaxial setup, electrodes and dielectric sample are cooled to less than 100 K in vacuum, and the flashover initiation processes for gap distances on the order of 1 cm are characterized using fast electrical and optical diagnostics. As reported before, two development stages can be distinguished: a first phase with slowly rising current and the presence of free electrons, with a duration of 10-50 ns, and a second stage with a fast current rise due to gaseous ionization and collision dominated electrons. First experiments comparing cooled samples and samples at room temperature do not show discernible differences for Lexan. For Alumina, however, an increase of the duration of phase 1 is observed, with a higher current amplitude at the transition from phase one to phase two. Also, the current rise in phase two is reduced. These results indicate a temperature dependence of the electron induced outgassing process which is expected to cause the transition from phase one to phase two.

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低温(100k)真空介质表面闪络

大功率系统的最新发展使用低温组件，其中绝缘体在如此低温下的性能是未知的。在快速同轴装置中，电极和介电样品在真空中冷却到小于100 K，并使用快速电学和光学诊断来表征间隙距离为1 cm的闪络起爆过程。如前所述，可以区分两个发展阶段:第一阶段是电流缓慢上升和自由电子的存在，持续时间为10-50 ns;第二阶段是由于气体电离和碰撞主导电子导致电流快速上升。首先，比较冷却样品和室温下样品的实验没有显示出Lexan的明显差异。然而，对于氧化铝，观察到第1相持续时间的增加，从第1相过渡到第2相时具有更高的电流振幅。同时，第二阶段的电流上升也减小了。这些结果表明，电子诱导出气过程的温度依赖性，预计会导致从第一相到第二相的转变。

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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IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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