Charging behavior of polyethylene and ionomers

Conference on Electrical Insulation & Dielectric Phenomena — Annual Report 1987 Pub Date : 1987-10-01 DOI:10.1109/CEIDP.1987.7736575

M. Broadhurst, A. Dereggi, G. T. Davis, F. Mopsik

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引用次数: 3

Abstract

Space charge may lower the breakdown strength of solid insulation by making local electric fields bigger than the applied field. One extensive study[1] of this phenomenon led to a proposal to blend crosslinked polyethylene (XLPE) insulation with an ionomer to reduce space charge build-up. The authors used contact electrification (no applied field) as a measure of the tendency for a polymer to charge under an applied field and found that the XLPE acquired negative charge, the ionomer positive charge and a blend of the two acquired much less net charge than either component. The reverse-polarity breakdown strength of the blend was found to be higher than that of XLPE and this was related to its reduced contact charging. We have extended this work to test the above ideas and proposal for improving the performance of XLPE-insulated cables. In our study we measured electric field distributions in films of polyethylene, ionomers and blends charged by applying 0 to 50 V/μm at temperatures between 20 and 80°C for times up to 100 hours. These electric field measurements show more directly, than do contact charging data, the charging behavior that occurs in the bulk of coaxial DC power cable insulation in service under an applied field.

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聚乙烯和离聚物的充电行为

空间电荷可以使局部电场大于外加电场，从而降低固体绝缘的击穿强度。一项针对这一现象的广泛研究提出了将交联聚乙烯(XLPE)绝缘材料与离子单体混合以减少空间电荷积聚的建议。作者使用接触通电(无外加电场)来衡量聚合物在外加电场下的充电趋势，发现XLPE获得负电荷，离聚体获得正电荷，两者的混合物获得的净电荷比任何一种成分都要少得多。发现共混物的反极性击穿强度高于交联聚乙烯，这与它减少了接触充电有关。我们扩展了这项工作，以测试上述改进交联聚乙烯绝缘电缆性能的想法和建议。在我们的研究中，我们测量了聚乙烯薄膜、离子聚合物和混合物中的电场分布，在20到80°C的温度下，施加0到50 V/μm的电荷，充电时间长达100小时。这些电场测量比接触式充电数据更直接地显示了在外加电场下工作的大部分同轴直流电力电缆绝缘中的充电行为。

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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Conference on Electrical Insulation & Dielectric Phenomena — Annual Report 1987

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