固体绝缘配电设备界面的电气特性

Chao Zhang, J. Kučera, R. Kaluzny
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引用次数: 1

摘要

固体绝缘配电设备具有环保、免维护、结构紧凑、重量轻等设计优势。在这类设备中,不同固体绝缘材料之间的界面通常是不可避免的。根据在设备中的放置位置,界面不仅要承受垂直于界面的高电场应力,还要承受平行于界面的电场应力。因此,在两个方向上实现具有强大电气性能的接口非常重要。本文研究了平行电场作用下界面的电学性质。我们有意选择了两种不同类型的界面样品:一种是由硅橡胶和三元乙丙橡胶组成的软软型界面,另一种是由硅橡胶和纤维增强环氧树脂组成的软硬型界面。对样品的漏电流和电击穿行为进行了评估。研究的目的是确定两种类型的界面样品之间是否存在显著的电气性能差异。对结果进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Electrical Behaviors of the Interface in Solid-Insulated Distribution Equipments
Solid-insulated distribution equipment has several design advantages when considering benefits for environmental protection, maintenance-free operation, compact-design, light weight etc. In such equipment, interfaces between different solid insulating materials are generally inevitable. The interface, depending on the placement in the equipment, is not only subjected to high electric field stress perpendicular to the interface but also to electric field stress parallel to the interface. It is therefore very important to achieve an interface with robust electrical performance in both directions. In this paper, the electrical properties of the interface subjected to the parallel electric field have been investigated. Two different types of interface samples were intentionally chosen: one composed of silicone rubber and EPDM rubber - a soft-soft type interface and the other composed of silicone rubber and fiber reinforced epoxy resin - a soft-hard type interface. Samples were evaluated for leakage current and electrical breakdown behaviors. The purpose of the research is to determine if there is a significant difference in electrical performances between the two types of interface samples accordingly. The results have been discussed.
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