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Analysis of Failures and Protective Measures for Core Rods in Composite Long-Rod Insulators of Transmission Lines

Author

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  • Guohui Pang

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

  • Zhijin Zhang

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

  • Jianlin Hu

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

  • Qin Hu

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

  • Hualong Zheng

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

  • Xingliang Jiang

    (Xuefeng Mountain Energy Equipment Safety National Observation and Research Station, Chongqing University, Chongqing 400044, China)

Abstract

Composite insulators are deployed globally for outdoor insulation owing to their light weight, excellent pollution resistance, good mechanical strength, ease of installation, and low maintenance costs. The core rod in composite long-rod insulators plays a critical role in both mechanical load-bearing and internal insulation for overhead transmission lines, and its performance directly affects the overall operational condition of the insulator. However, it remains susceptible to failures induced by complex actions of mechanical, electrical, thermal, and environmental stresses. This paper systematically reviews the major failure modes of core rods, including mechanical failures (normal fracture, brittle fracture, and decay-like fracture) and electrical failures (flashunder and abnormal heating of the core rod). Through analysis of extensive field data and research findings, key failure mechanisms are identified. Preventive strategies encompassing material modification (such as superhydrophobic coatings, self-diagnostic materials, and self-healing epoxy resin), structural optimization (like the optimization of grading rings), and advanced inspection methods (such as IRT detection, Terahertz (THz) detection, X-ray computed tomography (XCT)) are proposed. Furthermore, the limitations of current technologies are discussed, emphasizing the need for in-depth studies on deterioration mechanisms, materials innovation, and defect detection technologies to enhance the long-term reliability of composite insulators in transmission networks.

Suggested Citation

  • Guohui Pang & Zhijin Zhang & Jianlin Hu & Qin Hu & Hualong Zheng & Xingliang Jiang, 2025. "Analysis of Failures and Protective Measures for Core Rods in Composite Long-Rod Insulators of Transmission Lines," Energies, MDPI, vol. 18(12), pages 1-41, June.
    • Handle: RePEc:gam:jeners:v:18:y:2025:i:12:p:3138-:d:1679274
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    References listed on IDEAS

    as
    1. Xinhan Qiao & Yue Ming & Ke Xu & Ning Yi & Raji Sundararajan, 2022. "Aging of Polymeric Insulators under Various Conditions and Environments: Another Look," Energies, MDPI, vol. 15(23), pages 1-16, November.
    2. Zhenyu Zhuo & Ershun Du & Ning Zhang & Chris P. Nielsen & Xi Lu & Jinyu Xiao & Jiawei Wu & Chongqing Kang, 2022. "Cost increase in the electricity supply to achieve carbon neutrality in China," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    3. Xiaoyu Yi & Likun Ding & Hongliang Liu & Jiaxin Zhang & Jie Liu & Zhaohui Li & Yuming Zhang & Ping Wang & Jianghai Geng, 2024. "Study on the Mechanism Effect of Bending Loads on the Decay-like Degradation of Composite Insulator GFRP Core Rod," Energies, MDPI, vol. 17(2), pages 1-20, January.
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