Inherent Correlation Between the Breakdown Strength and the Surface Flashover Performance of Epoxy Resin in N2 Atmosphere

Haoming Xu, Wenfeng Liu, Zhen Li, Farooq Aslam, Shengtao Li
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Abstract

Surface flashover and breakdown are two typical failures of insulations, which inhibit the stability and downsizing of electrical apparatus. The two phenomena were traditional considered be affected by different factors. However, in the present study, the inherent correlation between surface flashover and gas breakdown strength was revealed. Experimentally epoxy resin composites with a thickness of 1 mm and diameter of 50 mm were prepared. Surface flashover voltages were measured for DC voltage in different pressure and temperature. Gas breakdown voltages were tested in a same condition. With temperature decreases or pressure increases, both gas breakdown voltage and surface flashover voltage increase. However, the growth rate is different for the two voltages. Gas breakdown voltage increases faster than surface flashover voltage. The ratio of flashover voltage to gas breakdown voltage decrease with gas pressure increase. This work investigates the relationship between surface flashover and gas breakdown by considering gas adsorption. It was found that sample gas adsorption capacity can affect the surface flashover voltage, but a saturation point exists. When the adsorbed gas molecules of samples reach saturation, the effect of adsorption on surface flashover performance is less than the effect of pressure on gas breakdown voltage.
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N2气氛中环氧树脂击穿强度与表面闪络性能的内在相关性
表面闪络和击穿是两种典型的绝缘故障,严重影响电气设备的稳定性和小型化。传统上认为这两种现象受不同因素的影响。然而,在本研究中,揭示了表面闪络与气体击穿强度之间的内在相关性。实验制备了厚度为1 mm、直径为50 mm的环氧树脂复合材料。测量了直流电压在不同压力和温度下的表面闪络电压。在相同的条件下测试了气体击穿电压。随着温度的降低或压力的增加,气体击穿电压和表面闪络电压均升高。然而,两种电压的增长率是不同的。气体击穿电压比表面闪络电压增长快。随着气体压力的增大,闪络电压与气体击穿电压之比减小。本文从气体吸附的角度研究了表面闪络与气体击穿的关系。发现样品气体吸附量对表面闪络电压有影响,但存在饱和点。当样品的吸附气体分子达到饱和时,吸附对表面闪络性能的影响小于压力对气体击穿电压的影响。
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