Electrical–Thermal–Mechanical Matching Properties of the Interface Between Main Insulation of High-Voltage Cables and Accessory Silicone Rubber Insulation

IF 3.1 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Dielectrics and Electrical Insulation Pub Date : 2025-02-11 DOI:10.1109/TDEI.2025.3541005

Xiaolong Chen;Lu Liu;Xuejing Li;Yanhui Wei;Yuanwei Zhu;Shengtao Li;Yongjie Nie;Guochang Li

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Abstract

The cable accessory structure involves a double-layer composite insulation interface and exists the problem of interface matching between the main insulation and the accessory insulation. In this article, the electrical-thermal-mechanical properties of two combined interfaces, crosslinked polyethylene (XLPE)/silicone rubber (SiR) and polypropylene (PP)/SiR, are tested. Also, the interface matching properties of the two combined interfaces are compared and analyzed. For electrical properties matching, the results show that the interface of PP/SiR accumulates more space charge than that of XLPE/SiR. The maximum interfacial charge accumulation is

$- 4.35\times 10^{-{4}}$

C/m2 for XLPE/SiR and

$- 6.01\times 10^{-{4}}$

C/m2 for PP/SiR. In terms of thermal properties matching, the thermal expansion coefficient of XLPE is the highest. As for mechanical properties matching, the interfacial pressure of XLPE/SiR and PP/SiR dropped below 0.1 MPa at 23 and 96 h. The molecular simulation results show that the molecular chains of PP have strong dynamic ability, and the free volume change and trap depth are largest for SiR. The experimental results show that XLPE/SiR is better matched in electrical properties, while PP/SiR is better matched in thermal and mechanical properties. This work is an important reference for improving the safety of cable accessories and promoting the development of environmentally friendly PP cables.

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高压电缆主绝缘与附件硅橡胶绝缘界面的电-热-机械匹配性能

电缆附件结构涉及双层复合绝缘接口，存在主绝缘与附件绝缘接口匹配的问题。本文测试了交联聚乙烯(XLPE)/硅橡胶（SiR）和聚丙烯(PP)/SiR两种复合界面的电-热-机械性能。并对两种组合界面的界面匹配特性进行了比较分析。在电性能匹配方面，PP/SiR界面比XLPE/SiR界面积累了更多的空间电荷。XLPE/SiR的最大界面电荷积累为$- 4.35\乘以10^{-{4}}$ C/m2， PP/SiR的最大界面电荷积累为$- 6.01\乘以10^{-{4}}$ C/m2。在热工性能匹配方面，XLPE的热膨胀系数最高。力学性能匹配方面，在23和96 h时，XLPE/SiR和PP/SiR的界面压力降至0.1 MPa以下。分子模拟结果表明，PP的分子链具有较强的动态能力，SiR的自由体积变化和陷阱深度最大。实验结果表明，XLPE/SiR在电学性能上匹配较好，而PP/SiR在热学和力学性能上匹配较好。这项工作对提高电缆附件的安全性，促进环保PP电缆的发展具有重要的借鉴意义。

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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来源期刊

IEEE Transactions on Dielectrics and Electrical Insulation 工程技术-工程：电子与电气

CiteScore

6.00

自引率

22.60%

发文量

309

审稿时长

5.2 months

期刊介绍： Topics that are concerned with dielectric phenomena and measurements, with development and characterization of gaseous, vacuum, liquid and solid electrical insulating materials and systems; and with utilization of these materials in circuits and systems under condition of use.