高压绝缘子用三元乙丙橡胶的性能评价

Proceedings of 1995 Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 1995-10-22 DOI:10.1109/CEIDP.1995.483765

Y. Kurata, K. Takano, K. Sakuraba, M. Hayashi

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引用次数: 12

摘要

介绍了EPDM(乙丙橡胶)作为高压绝缘材料的基本特性。最近，高分子化合物也被用作高压绝缘材料。三元乙丙橡胶的耐候性不如硅橡胶。然而，我们发现炭黑的加入使EPDM橡胶具有优异的耐候性能，而不会降低其耐跟踪性。通过添加三水合氧化铝(ATH)作为填料，提高了三元乙丙橡胶的耐电跟踪性能。与硅橡胶相比，该化合物具有优异的物理性能和较低的成本。我们按照IEC标准进行了跟踪测试。587作为短期评价，旋转车轮浸液试验作为长期评价试验。此外，还进行了氙弧辐射暴露试验作为加速老化试验。跟踪试验结果表明，跟踪阻力与三水合氧化铝的粒径有关，粒径较小的填料比粒径较大的填料损失更小。作为高压绝缘应用之一，我们将EPDM应用于聚合物外壳避雷器，并评估了聚合物外壳的电特性。

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Evaluation of EPDM rubber for high voltage insulator

This paper describes the fundamental characteristics of EPDM (ethylene propylene rubber) which is applied as a high voltage insulation material. Also recently, polymer compounds have been applied as high voltage insulation materials. EPDM rubber is inferior in weather resistance to silicone rubber. However, we found that the addition of carbon black results in an excellent weathering property of EPDM rubber without any degradation of tracking resistance. We also improved the electrical tracking resistance of EPDM rubber by adding alumina trihydrates (ATH) as fillers. The compound shows excellent physical properties and low cost in comparison with silicone rubber. We carried out a tracking test which followed IEC pub. 587 as a short term evaluation, and the rotating wheel dip test as a long term evaluation test. Furthermore, the xenon-arc radiation exposure test was carried out as an accelerated weathering test. From the results of the tracking test, we found that the tracking resistance is dependent upon the particle diameter of alumina trihydrates and the compound with a small particle filler has less weight loss than that with larger ones. As one of high voltage insulation applications, we applied EPDM to a polymer housing arrestor and evaluated the electrical characteristics of the polymer housing.

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Proceedings of 1995 Conference on Electrical Insulation and Dielectric Phenomena

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