Evidently Retarded Degradation in Breakdown Strength of Polypropylene Eco-Friendly Cable Insulation From Trace Self-Grown γ-Crystals During Thermal Aging

IF 2.9 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Dielectrics and Electrical Insulation Pub Date : 2025-02-07 DOI:10.1109/TDEI.2025.3540004

Kangning Wu;Haoran Sui;Yongruo Ren;Kai Yang;Peng Zhao;Benhong Ouyang;Huan Li;Xu Zhang;Li Ran;Jianying Li

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Abstract

Recyclable thermoplastic polypropylene (PP) cable insulation with excellent performances is expected to represent traditional thermoset cross-linked polyethylene (XLPE) insulation. However, the poor resistance to thermal aging of PP-based cable insulation is generally considered as an obstacle limiting their practical applications. In this article, trace self-grown

$\gamma $

-crystals of PP were accidentally found in impact PP copolymer (IPC) cable insulation during thermal aging, which evidently retarded degradation in breakdown strength caused by decline in crystallinity. The unexpected growth of

$\gamma $

-crystals is further proven to be facilitated by crystalline ethylene segments from rubber phases and those blocked in PP chains. As a result, more deep traps are introduced by

$\gamma $

-crystals that are presented as crystalline structure defects. It makes carriers in IPC more difficult to migrate and detrap under external electric field. Therefore, although the crystallinity, which determines the breakdown strength of semi-crystalline polymers, decreases at day 12 of thermal aging, the degradation in breakdown strength is delayed until day 24. The self-grown

$\gamma $

-crystals in IPC insulation thus achieve the self-protective resistance against thermal aging. This work provides a new understanding to the effect of elastomers on thermal-aging stability in PP-based eco-friendly power cable insulation.

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在热老化过程中，微量自生长γ-晶体明显延缓聚丙烯环保电缆绝缘击穿强度的降低

具有优良性能的可回收热塑性聚丙烯（PP）电缆绝缘有望取代传统热固性交联聚乙烯（XLPE）绝缘。然而，pp基电缆绝缘的耐热老化性能较差，普遍被认为是限制其实际应用的障碍。本文在冲击聚丙烯共聚物（IPC）电缆绝缘热老化过程中偶然发现了微量PP自生长的$\gamma $晶体，明显延缓了结晶度下降引起的击穿强度下降。进一步证明，来自橡胶相的结晶乙烯段和PP链中的乙烯段促进了$\gamma $ -晶体的意外生长。结果，更多的深阱被$\gamma $ -晶体引入，并表现为晶体结构缺陷。它使IPC中的载流子在外加电场作用下更难迁移和脱除。因此，虽然决定半结晶聚合物击穿强度的结晶度在热老化第12天下降，但击穿强度的下降延迟到第24天。因此，IPC绝缘中自生长的$\gamma $晶体实现了抗热老化的自保护电阻。本研究为弹性体对pp基环保电力电缆绝缘热老化稳定性的影响提供了新的认识。

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.