DC inclined-plane testing of silicone rubber formulations

2008 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2008-10-01 DOI:10.1109/CEIDP.2008.4772788

G. Bruce, Simon M. Rowland, A. Krivda

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引用次数: 11

Abstract

The inclined plane test for tracking and erosion resistance of materials, IEC-60587, has become a routine tool for researchers developing high voltage outdoor insulation materials. The test is designed for ac applications and many laboratories have many years of experience with the technique. DC power systems are becoming more important and competitive in the market place. Often insulation systems designed for AC applications are utilised on dc systems. However, there is clear evidence of behavioural differences between identical materials under AC and DC stresses. An equivalent test to IEC-60587, has been developed and utilised for the dc case. A computer-based monitoring system is used to study materials beyond the criteria set by IEC 60587 and this system is reviewed in the paper. A number of different formulations of silicone rubber have been evaluated using the rig described. In this paper particular attention is given to the nature of electrical discharges under different test conditions and how this influences material degradation. Measurements show that the sample degradation mechanism is very different for positive and negative HVDC, while positive DC has shown to be the most aggressive for the materials tested.

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硅橡胶配方的直流斜面试验

IEC-60587斜面跟踪和耐冲蚀试验已成为研究人员开发高压室外绝缘材料的常规工具。该测试是为交流应用而设计的，许多实验室对该技术有多年的经验。直流电源系统在市场上变得越来越重要和有竞争力。通常为交流应用设计的绝缘系统用于直流系统。然而，有明确的证据表明，相同的材料在交流和直流应力下的行为差异。一个等效的测试，以IEC-60587，已开发并用于直流情况。本文介绍了一种基于计算机的监测系统，用于研究超出IEC 60587标准的材料。许多不同配方的硅橡胶已经评估使用钻机描述。本文特别关注不同试验条件下放电的性质及其对材料降解的影响。测量表明，样品的降解机制是非常不同的正和负高压直流，而正直流已被证明是最具侵略性的材料测试。

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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2008 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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