Electrical characterization of low-density solid insulating fillers for hollow-core composite insulators

Diego Machetti, E. Moal, J. Seifert, R. Puffer
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引用次数: 1

Abstract

Insulating materials that can fill the internal space of hollow-core composite insulators (HCIs) are gaining relevance due to the new areas of applications of these insulators. Such materials must be light and have sufficient electrical properties to preserve the integrity of the inner room of the HCIs. The electrical properties of a light polymeric foam, known as dry syntactic foam (DSF), which is based on two types of hollow microspheres (HMSs), were investigated. Special emphasis is placed on the influence of the density of the resulting material regarding the electrical properties. The results show that the dissipation factor and the relative permittivity have a proportional relationship with the density. Furthermore, two main properties, namely the number of interfaces and the pore size are found to influence the breakdown strength of the DSF.
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空心复合绝缘子用低密度固体绝缘填料的电学特性
由于空心复合绝缘子的新应用领域,填充空心复合绝缘子内部空间的绝缘材料越来越受到重视。这种材料必须很轻,并具有足够的电气性能,以保持hci内部房间的完整性。研究了以两种空心微球(hms)为基材的干式复合轻聚合物泡沫(DSF)的电学性能。特别强调的是所得到的材料的密度对电性能的影响。结果表明,耗散系数和相对介电常数与密度成正比关系。此外,发现两个主要性质,即界面数量和孔径大小影响了DSF的击穿强度。
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