聚乙烯电树的原位光弹性监测

Proceedings of IEEE Conference on Electrical Insulation and Dielectric Phenomena - (CEIDP '93) Pub Date : 1993-10-17 DOI:10.1109/CEIDP.1993.378880

É. David, J. Parpal, J. Crine

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引用次数: 3

摘要

作者研究了带半导体电极的拉伸PE(聚乙烯)样品的被动内应力和埋置钢电极周围的主动内应力对电树生长的影响。现场光弹性测量结果显示条纹图案演变伴随树木的繁殖。研究发现，j.v. Champion等人(1992)为环氧树脂块中嵌入电极建立的内应力模型可以成功地应用于聚乙烯样品。光弹性测量是一种简单有效的实验方法。聚乙烯样品的电性能在内部应变增加的情况下表现出复杂的变化。取向效应(被动内应力)和残余应力(主动内应力)可能有不同的贡献，可能方向相反。尽管如此，我们认为垂直于电场取向的聚乙烯样品比无取向的样品具有更好的耐电树性。

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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In-situ photoelastic monitoring of electrical treeing in polyethylene

The authors investigate the influence of both passive internal strains in drawn PE (polyethylene) samples with semiconductive electrodes and active internal stresses around embedded steel electrodes on the electrical tree growth. Results of insitu photoelastic measurements showing the fringe pattern evolution accompanying tree propagation are also presented. It has been found that the internal stress model developed by J. V. Champion et al (1992) for embedded electrodes in an epoxy resin block can be successfully applied to polyethylene samples. Photoelastic measurement is an efficient and simple tool for experimental determination of such stresses. The electrical performance of polyethylene samples show complex variations in the presence of increasing internal strain. Orientation effects (passive internal stresses) and residual stresses (active internal stresses) might make different contributions, possibly in opposite directions. Nevertheless, it is believed that polyethylene specimens oriented perpendicularly to the make electric field have better resistance to electrical treeing than unoriented samples.<>

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Proceedings of IEEE Conference on Electrical Insulation and Dielectric Phenomena - (CEIDP '93)

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