复合绝缘横担界面特性检测研究现状

doi:10.19595/j.cnki.1000-6753.tces.181927

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Abstract Continuous promotion and sustainable development of power grid construction in China has brought significant attention to the composite cross-arm owing to its unique advantages. However, few composite cross-arms are currently in operation, and further research on their interface properties is required. Thus, studying composite cross-arm interface performance is highly significant for ensuring safe power grid operation. This study summarizes the progress of composite cross-arm research, and combined with the related basis of interface evaluation, analyzes the causes of different interface types and composite cross-arm interface properties. Macro- and micro-detection methods for studying interfaces are further summarized. The applicability and validity of various detection methods are analyzed, and interface models for a composite cross-arm are presented. Finally, to provide a reference for future application and development, the prospects of composite cross-arm interface detections are analyzed.

Key words： Composite cross-arm interface characteristic nondestructive examination macro- scopic interface

Received: 14 December 2018 Published: 17 January 2020

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	Liu Yunpeng
	Li Le
	Zhang Mingjia
	Liu Lei
	Tang Li
	Wang Guoli
	Liu Hechen

Cite this article:

Liu Yunpeng,Li Le,Zhang Mingjia等. Research Status of Interface Detection for Composite Cross-Arm[J]. Transactions of China Electrotechnical Society, 2020, 35(2): 408-424.

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https://dgjsxb.ces-transaction.com/EN/10.19595/j.cnki.1000-6753.tces.181927 OR https://dgjsxb.ces-transaction.com/EN/Y2020/V35/I2/408

[1] 杨熙, 喻新强, 尚勇, 等. 750kV输电线路复合横担均压特性[J]. 电网技术, 2013, 37(6): 1625-1631.
Yang Xi, Yu Xinqiang, Shang Yong, et al.Voltage- sharing characteristics of composite cross-arm in 750kV AC transmission lines[J]. Power System Technology, 2013, 37(6): 1625-1631.
[2] 沈余峰, 梁曦东, 王家福, 等. 高海拔下交流500kV复合横担污闪特性[J]. 高电压技术, 2017, 43(8): 2760-2768.
Shen Yufeng, Liang Xidong, Wang Jiafu, et al.Pollution characteristics of AC 500kV composite cross-arm in high altitude area[J]. High Voltage Engineering, 2017, 43(8): 2760-2768.
[3] 谷裕, 阳林, 张福增, 等. 高海拔地区特高压换流站大尺寸复合支柱绝缘子直流污闪特性[J]. 电工技术学报, 2016, 31(10): 93-101.
Gu Yu, Yang Lin, Zhang Fuzeng, et al.DC pollution flashover performance of ultra high voltage convert stations large-size composite post insulators at high altitude areas[J]. Transactions of China Electro- technical Society, 2016, 31(10): 93-101.
[4] 张楚岩, 张福增, 陈昌龙, 等. 高海拔地区直流特高压大尺寸复合外绝缘污闪特性研究[J]. 电工技术学报, 2012, 27(12): 20-28.
Zhang Chuyan, Zhang Fuzeng, Chen Changlong, et al.Research on pollution flashover characteristics of large-size composite outdoor insulation for UHV-DC in high altitude area[J]. Transactions of China Electrotechnical Society, 2012, 27(12): 20-28.
[5] 徐欣, 程冬, 谢佐鹏, 等. 110kV输电线路不挂绝缘子复合材料绝缘横担的研制与应用[J]. 电力建设, 2014, 35(7): 104-109.
Xu Xin, Cheng Dong, Xie Zuopeng, et al.Deve- lopment and application of composite cross arm in 110kV transmission line without insulator[J]. Electric Power Construction, 2014, 35(7): 104-109.
[6] 方雅琪, 王力农, 李姗姗, 等. 复合材料杆塔人工加速老化试验及其长期性能评估[J]. 电工技术学报, 2017, 32(19): 212-219.
Fang Yaqi, Wang Linong, Li Shanshan, et al.Artificial accelerated ageing test for composite material tower and its long-term performance evaluation[J]. Transactions of China Electrotechnical Society, 2017, 32(19): 212-219.
[7] 朱岸明, 杨大渭, 刘云贺, 等. FRP复合材料杆塔横担研究应用现状及分析[J]. 电网与清洁能源, 2015, 31(10): 76-82, 88.
Zhu Anming, Yang Dawei, Liu Yunhe, et al.Appli- cation and analysis of cross arms made from FRP composite materials in transmission towers[J]. Power System and Clean Energy, 2015, 31(10): 76-82, 88.
[8] 左玉玺, 薛更新, 孙强, 等. 750kV输电线路复合横担设计研究[J]. 电网与清洁能源, 2013, 29(1): 1-8.
Zuo Yuxi, Xue Gengxin, Sun Qiang, et al.Research on the design of composite cross arm for 750kV transmission line[J]. Power System and Clean Energy, 2013, 29(1): 1-8.
[9] 张福林. 35kV复合横担绝缘子结构特点及运行稳定性[J]. 电瓷避雷器, 1997(2): 14-17.
Zhang Fulin.Structural characteristics and oper- ational stability of 35kV composite cross-arm insulator[J]. Insulators and Surge Arresters, 1997(2): 14-17.
[10] 胡毅, 王力农, 郑传广, 等. 10kV线路防雷击及污闪的绝缘塔头和横担[J]. 高电压技术, 2007, 33(12): 108-110, 161.
Hu Yi, Wang Linong, Zheng Chuanguang, et al.Insulated tower top and cross arm to prevent lightning and pollution flashover[J]. High Voltage Engineering, 2007, 33(12): 108-110, 161.
[11] 方东红, 韩建平, 曹翠玲. 复合材料输电杆应用进展[J]. 玻璃纤维, 2008(6): 31-35, 39.
Fang Donghong, Han Jianping, Cao Cuiling.Advance in application of composite poles for power trans- mission[J]. Fiber Glass, 2008(6): 31-35, 39.
[12] 杨敏祥, 陈原, 李卫国, 等. 复合材料杆塔研究现状及关键技术问题[J]. 华北电力技术, 2010(10): 48-50.
Yang Minxiang, Chen Yuan, Li Weiguo, et al.Research progress on composite tower and pole and its key technical problems[J]. North China Electric Power, 2010(10): 48-50.
[13] Q/GDW 11124.1—2013 750kV架空输电线路杆塔复合横担技术规定/GDW 11124.1—2013 750kV架空输电线路杆塔复合横担技术规定[S]. 北京: 中国电力科学研究院标准, 2013.
[14] 吴昊, 孙珍茂, 刘勇. 复合横担在1000kV特高压交流输电双回路铁塔中的应用探讨[J]. 电力与能源, 2018, 39(1): 45-48, 62.
Wu Hao, Sun Zhenmao, Liu Yong.Application of composite cross arm in 1000kV UHV AC overhead transmission line tower[J]. Power & Energy, 2018, 39(1): 45-48, 62.
[15] Q/GDW 11714.2—2017 1000kV交流架空输电线路杆塔复合横担/GDW 11714.2—2017 1000kV交流架空输电线路杆塔复合横担[S]. 北京: 中国电力科学研究院标准, 2017.
[16] 刘建军, 张廼龙, 胡鹏, 等. 一起复合横担绝缘子断裂原因的分析与探讨[J]. 江苏电机工程, 2016, 35(6): 88-91.
Liu Jianjun, Zhang Nailong, Hu Peng, et al.Analysis and discussion on the fracture reason of composite cross-arm insulator[J]. Jiangsu Electrical Engineering, 2016, 35(6): 88-91.
[17] 孙才新, 唐炬, 谢军, 等. 在高海拔、淋雨、污秽环境中电站型支柱绝缘子的直流放电特性[J]. 电工技术学报, 1991, 6(1): 41-45, 64.
Sun Caixin, Tang Ju, Xie Jun, et al.DC discharge characteristics of substation support insulators in high altitude, rain and pollution environment[J]. Transactions of China Electrotechnical Society, 1991, 6(1): 41-45, 64.
[18] Alipour H J, Aminnejad S, Jazaeri M.Decreasing the right of way of transmission lines by using towers with poly international conference on mer insulation arms[C]//Power Engineering, Energy and Electrical Drives, Portugal, 2007: 571-576.
[19] 高岩峰. 复合绝缘子界面问题研究[D]. 北京: 清华大学, 2016.
[20] 吴子剑, 王晨, 张明艳, 等. 环氧树脂纳米复合材料界面及其对电性能影响分析[J]. 电工技术学报, 2018, 33(16): 3897-3905.
Wu Zijian, Wang Chen, Zhang Mingyan, et al.Interface of epoxy resin composites, and its influence on electrical performance[J]. Transactions of China Electrotechnical Society, 2018, 33(16): 3897-3905.
[21] Papailiou K O, Schmuck F.Silicone composite insulators: materials, design, applications[M]. Berlin: Springer Science & Business Media, 2012.
[22] 谢从珍, 刘珊, 刘芹, 等. 交流500kV复合绝缘子内部缺陷对轴向电场分布的影响[J]. 高电压技术, 2012, 38(4): 922-928.
Xie Congzhen, Liu Shan, Liu Qin, et al.Internal defects influence of 500kV AC composite insulator on the electric field distribution along the axis[J]. High Voltage Engineering, 2012, 38(4): 922-928.
[23] Kumagal S, Yoshimura N.Impacts of thermal aging and water absorption on the surface electrical and chemical properties of cycloaliphatic epoxy resin[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2002, 7(3): 424-431.
[24] 张福增, 宋磊, 李锐海, 等. 复合绝缘子断裂原因分析及缺陷评价方法[J]. 高电压技术, 2012, 38(11): 3093-3100.
Zhang Fuzeng, Song Lei, Li Ruihai, et al.Evaluation method of defect and fracture reason for composite insulator[J]. High Voltage Engineering, 2012, 38(11): 3093-3100.
[25] 滕国利, 郭元吉. 复合绝缘子界面特性[J]. 电网技术, 2005, 29(14): 88-89.
Teng Guoli, Guo Yuanji.Composite insulator inter- face characteristics[J]. Power System Technology, 2005, 29(14): 88-89.
[26] 雷清泉, 范勇, 王暄. 纳米高聚物复合材料的结构特性、应用和发展趋势及其思考[J]. 电工技术学报, 2006, 21(2): 1-7, 12.
Lei Qingquan, Fan Yong, Wang Xuan, et al.Structure properfy applications and developing trends of polymer nanocomposites[J]. Transactions of China Electrotechnical Society, 2006, 21(2): 1-7, 12.
[27] Guan Zhicheng, Wei Xiaoxing, Jia Zhidong, et al.Application and research of composite insulator in China[C]//Insulator News & Market Report Sympo- sium, Seoul, 2011: 179-210.
[28] 段明明, 王璁, 屠幼萍, 等. 复合绝缘子护套与芯棒界面粘接性及界面质量检测方法研究[J]. 高压电器, 2016(9): 132-137.
Duan Mingming, Wang Wei, Tu Youping, et al.Study of interface adhesion and interface quality detection between housing and core rod of composite Insulators[J]. High Voltage Apparatus, 2016(9): 132-137.
[29] 申元, 马仪, 徐肖伟, 等. 复合绝缘子空气中陡波冲击电压试验[J]. 云南电力技术, 2016, 45(增刊2): 35-37.
Shen Yuan, Ma Yi, Xu Xiaowei, et al.Steep wave impulse voltage test of composite insulator in air[J]. Yunnan Electric Power, 2016, 45(S2): 35-37.
[30] IECTS 61321-1: 1994 High-voltage testing techniques with very fast impulses-part 1: measuring systems for very fast front overvoltage generated in gas-insulated substations[S]. 1994.
[31] GB/T 21429-2008 户外和户内电气设备用空心复合绝缘子定义、试验方法[S]. 2008.
[32] IEC 61462-2002 Composite hollow insulators- pressurized and unpressurized insulators for use in electrical equipment with rated voltage greater than 1000V-definitions, test methods, acceptance criteria and design recommendations[S]. Switzerland, 1994.
[33] 朱旭东, 孙伟, 陈文针. 高压线路绝缘子陡波试验技术探讨[J]. 高电压技术, 1999, 25(4): 48-49, 51.
Zhu Xudong, Sun Wei, Chen Wenzhen.Study on technique of steep wave impulse voltage for insulators HV lines[J]. High Voltage Engineering, 1999, 25(4): 48-49, 51.
[34] 粟福珩, 贾逸梅. 合成绝缘子的缺陷与陡波试验[J]. 中国电力, 1996(1): 53-55.
Su Fuzhen, Jia Yimei.Fault on polymer insulators and it’s steep-front wave test[J]. Electric Power, 1996(1): 53-55.
[35] 苏玫. 陡波试验在检测复合绝缘子中的作用[J]. 高电压技术, 1997(3): 70-72.
Su Mei.Contribution of steep front impulse test in composite insulator examination[J]. High Voltage Engineering, 1997(3): 70-72.
[36] 张福林, 陈虹丽, 王黎明. 复合绝缘子伞套间粘接结构及性能的分析[J]. 电力设备, 2005, 6(3): 34-36.
Zhang Fulin, Chen Hongli, Wang Liming.Analyses of structure and performances of Interface between insulators’ sheds and housing materials[J]. Electrical Equipment, 2005, 6(3): 34-36.
[37] 张福林, 李想玉, 韩晓东, 等. 芯棒与伞套界面粘接机理及稳定性能的分析[C]//电网节能与电能质量技术学会学术交流会, 上海, 2012.
[38] Cheng Li, Wang Liming, Guan Zhicheng, et al.Research on aged interfaces of composite insulators after extended water diffusion tests[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2016, 23(6): 3676-3682.
[39] 段明明. 复合绝缘子护套与芯棒界面质量检测及评估方法研究[D]. 北京: 华北电力大学, 2016.
[40] 张伟杰. 无机胶粘剂的套接压缩剪切强度[J]. 理化检验(物理分册), 2014, 50(5): 338-340.
Zhang Weijie.Socket compression shear strength of inorganic adhesives[J]. Physicochemical Testing and Chemical Analysis, 2014, 50(5): 338-340.
[41] 聂章翔, 王黎明, 杨翠茹. 复合绝缘子芯棒与护套交界面在水和高温作用下的老化特性[J]. 中国电机工程学报, 2018, 38(15): 4601-4611, 4661.
Nie Zhangxiang, Wang Liming, Yang Cuiru.Aging characteristics of interface between core and sheath of composite insulators under water and high temperature[J]. Proceedings of the CSEE, 2018, 38(15): 4601-4611, 4661.
[42] 陈原, 刘燕生, 沈健, 等. 复合绝缘子隐蔽性缺陷检测方法[J]. 电网技术, 2006, 30(12): 58-63.
Chen Yuan, Liu Yansheng, Shen Jian, et al.Inner- defect detection method for composite insulators[J]. Power System Technology, 2006, 30(12): 58-63.
[43] GB/T 19519-2004 标称电压高于1000V的交流架空线路用复合绝缘子—定义、试验方法及验收准则[S]. 电力标准化与计量, 2002.
[44] 成立, 梅红伟, 王黎明, 等. 复合绝缘子用硅橡胶护套长时间老化特性及其影响因素[J]. 电网技术, 2016, 40(6): 1896-1902.
Cheng Li, Mei Hongwei, Wang Liming, et al.Long-term aging characteristics and influencing factors of silicone rubber sheath for composite insulators[J]. Power System Technology, 2016, 40(6): 1896-1902.
[45] Li Yishang, Jia Zhidong, Wang Xilin.Study on interface between core and sheath of composite insulator based on leakage current[C]//2018 12th International Conference on the Properties and Applications of Dielectric Materials (ICPADM), Xi’an, China, 2018: 1127-1130.
[46] IEC 61109-2008 Insulators for overhead lines- composite suspension and tension insulators for a. c. systems with a nominal voltage greater than 1000V- definitions, test methods and acceptance criteriaEC 61109-2008 Insulators for overhead lines- composite suspension and tension insulators for a. c. systems with a nominal voltage greater than 1000V- definitions, test methods and acceptance criteria[S]. Ceneva, 2008.
[47] Papailiou K O, Schmuck F.Silicone composite insulators[M]. Cermany: Springer Science & Business Media, 2013.
[48] 田付强, 杨春, 何丽娟, 等. 聚合物/无机纳米复合电介质介电性能及其机理最新研究进展[J]. 电工技术学报, 2018, 33(16): 3897-3905.
Tian Fuqiang, Yang Chun, He Lijuan, et al.Recent research advancement in dielectric properties and the corresponding mechanism of polymer/inorganic nanocomposite[J]. Transactions of China Electro- technical Society, 2018, 33(16): 3897-3905.
[49] 高良玉, 郭文元, 王慧峰, 等. 电缆中聚乙烯界面微观结构对击穿强度的影响[J]. 电工技术学报, 1994, 9(4): 54-58.
Gao Liangyu, Guo Wenyuan, Wang Huifeng, et al.Influence of interfacial microstructure of poly- ethylene on breakdown strength in power cable[J]. Transactions of China Electrotechnical Society, 1994, 9(4): 54-58.
[50] 李白, 鲁军勇, 谭赛, 等. 滑动电接触界面粗糙度对电枢熔化特性的影响[J]. 电工技术学报, 2018, 33(7): 1607-1615.
Li Bai, Lu Junyong, Tan Sai, et al.Effect of interfacial roughness of sliding electrical contact on the melting characteristics of armature[J]. Transa- ctions of China Electrotechnical Society, 2018, 33(7): 1607-1615.
[51] 梁曦东, 高岩峰. 复合绝缘子酥朽断裂研究(一): 酥朽断裂的主要特征、定义及判据[J]. 中国电机工程学报, 2016, 36(17): 4778-4785.
Liang Xidong, Gao Yanfeng.Study on decay-like fracture of composite insulator: part I- the principal character, definition and criterion of decay-like fracture[J]. Proceedings of the CSEE, 2016, 36(17): 4778-4785.
[52] 申文伟, 宋伟, 王国利, 等. 复合绝缘子HTV硅橡胶材料老化特性的研究[J]. 高压电器, 2013(2): 1-7.
Shen Wenwei, Song Wei, Wang Guoli, et al.Influence of corona discharge on aging characteri- stics of HTV silicone rubber material[J]. High Voltage Apparatus, 2013(2): 1-7.
[53] 吴子越, 余剑英, 王文轩, 等. 特高压输电网中硅橡胶绝缘子老化的研究[J]. 湖北大学学报(自科版), 2017, 39(2): 155-160.
Wu Ziyue, Yu Jianying, Wang Wenxuan, et al.Aging of composite insulators used in high-voltage AC transmission lines[J]. Journal of Hubei University (Natural Science), 2017, 39(2): 155-160.
[54] Zhu Yong, He Liwang, Zhou Shushen, et al.Insulation performance of rigid polyurethane foam and its application in station post insulator[C]//2018 12th International Conference on the Properties and Applications of Dielectric Materials (ICPADM), Xi’an, China, 2018: 970-973.
[55] 崔宏志, 邢锋. 用SEM和FT-IR研究轻骨料混凝土界面过渡区[J]. 混凝土, 2010(1): 18-20.
Cui Hongzhi, Xing Feng.Study of interfacial transition zone of lightweight aggregate concrete by using SEM and FT-IR[J]. Concrete, 2010(1): 18-20.
[56] 江峰, 张志博, 张建, 等. 纯铝/硬铝双金属界面裂纹扩展过程的SEM原位观察[J]. 中国有色金属学报, 2005, 15(10): 1493-1499.
Jiang Feng, Zhang Zhibo, Zhang Jian, et al.Insitu SEM observation of crack propagation along explosive clad interface[J]. The Chinese Journal of Nonferrous Metals, 2005, 15(10): 1493-1499.
[57] 何金良, 彭思敏, 周垚, 等. 聚合物纳米复合材料的界面特性[J]. 中国电机工程学报, 2016, 36(24): 6596-6605.
He Jinliang, Peng Simin, Zhou Wei, et al.Interface properties of polymer nanocomposites[J]. Pro- ceedings of the CSEE, 2016, 36(24): 6596-6605.
[58] Jones R, Pollock H M, Cleaver J A S, et al. Adhesion forces between glass and silicon surfaces in air studied by AFM: effects of relative humidity, particle size, roughness, and surface treatment[J]. Langmuir, 2002, 18(21): 8045-8055.
[59] Liu Jun, Wang Xiaohong, Lin Zhongjin, et al.Shape- controllable pulse electrodeposition of ultrafine platinum nanodendrites for methanol catalytic combustion and the investigation of their local electric field intensification by electrostatic force microscope and finite element method[J]. Electro- chimica Acta, 2014, 136: 66-74.
[60] Hapala P, Svec M, Stetsovych O, et al.Mapping the electrostatic force field of single molecules from high-resolution scanning probe images[J]. Nature Communications, 2016, 7: 11560.
[61] 孙志, 付琳清, 高鑫, 等. 基于原子力显微镜的微间隙空气放电研究[J]. 电工技术学报, 2018, 33(23): 5616-5624.
Sun Zhi, Fu Linqing, Gao Xin, et al.Research of discharge in micro-gap based on atomic force microscope[J]. Transactions of China Electro- technical Society, 2018, 33(23): 5616-5624.
[62] 彭金平. 环氧树脂纳米复合材料介电和绝缘性能研究[D]. 北京: 中国科学院大学, 2012.
Balazs A C, Emrick T, Russell T P.Nanoparticle polymer composites: where two small worlds meet[J]. Science, 2006, 314(5802): 1107-1110.
[64] 彭金平, 张冬冬, 关丽, 等. 纳米复合材料中界面动态特性的扫描静电显微技术研究[J]. 物理化学学报, 2013, 29(7): 1603-1608.
Peng Jinping, Zhang Dongdong, Guan Li, et al.An electrostatic force microscopy investigation of the dynamic properties of microscopic interface in nanocomposites[J]. Acta Physico-Chimica Sinica, 2013, 29(7): 1603-1608.
[65] 何子兰. 复合绝缘子人工内部缺陷的超声波检测[D]. 广州: 华南理工大学, 2013.
[66] 谢从珍, 张尧, 郝艳捧, 等. 应用超声波探伤仪检测复合绝缘子的内部缺陷[J]. 高电压技术, 2009, 35(10): 2464-2469.
Xie Congzhen, Zhang Yao, Hao Yanpeng, et al.Application of ultrasonic flaw detector to internal defects in composite insulators[J]. High Voltage Engineering, 2009, 35(10): 2464-2469.
[67] 梁曦东, 戴建军, 周远翔, 等. 超声法检测绝缘子用玻璃钢芯棒脆断裂纹的研究[J]. 中国电机工程学报, 2005, 25(3): 110-114.
Liang Xidong, Dai Jianjun, Zhou Yuanxiang, et al.Ultrasonic detecion on crack of frp rod in brittle fracture of composite insulator[J]. Proceedings of the CSEE, 2005, 25(3): 110-114.
[68] 高英, 梁曦东, 薛家麒, 等. 超声脉冲检测硅橡胶内部缺陷的研究[J]. 高电压技术, 1997, 23(2): 58-63.
Gao Ying, Liang Xidong, Xue Jiaqi, et al.Ultrasonic pulse-echo method to detect the faults in silicone rubber[J]. High Voltage Engineering, 1997, 23(2): 58-63.
[69] Merten A.Non-destructive test methods for hollow- core composite insulators[C]//International Conference on High Voltage Engineering and Application, New Orleans, 2010: 536-539.
[70] 罗勇芬, 李彦明, 刘丽春. 基于超高频和超声波相控接收原理的油中局部放电定位法仿真研究[J]. 电工技术学报, 2004, 23(1): 35-39.
Luo Yongfen, Li Yanming, Liu Lichun.Simulation of PD location method in oil based on UHF and ultrasonic phased array receiving theory[J]. Transa- ctions of China Electrotechnical Society, 2004, 23(1): 35-39.
[71] 谢从珍, 袁超, 何子兰, 等. 复合绝缘子典型内部缺陷的相控阵检测[J]. 高电压技术, 2014, 40(3): 837-842.
Xie Congzhen, Yuan Chao, He Zilan, et al.Ultrasonic phased array to inspect typical internal defects of composite insulators[J]. High Voltage Engineering, 2014, 40(3): 837-842.
[72] 徐天勇, 董晓虎, 李荣超, 等. 复合绝缘子内部缺陷的超声相控阵检测研究[J]. 电力工程技术, 2018, 37(6): 75-79, 114.
Xu Tianyong, Dong Xiaohu, Li Rongchao, et al.The optimal allocation method of harmonic measuring device in distribution network[J]. Electric Power Engineering Technology, 2018, 37(6): 75-79, 114.
[73] 徐天勇, 董晓虎, 李荣超, 等. 基于超声相控阵复合绝缘子检测方法研究[J]. 电工技术, 2018(12): 113-116.
Xu Tianyong, Dong Xiaohu, Li Rongchao, et al.Research on composite insulator detection method based on ultrasonic phased array[J]. Electric Engineering, 2018(12): 113-116.
[74] Chao Yuan, Xie Chongzhen, Li Licheng, et al.Ultrasonic phased array detection of internal defects in composite insulators[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2016, 23(1): 525-531.
[75] 钟飞, 张晓春, 黄升平, 等. GIS盆式绝缘子模拟缺陷的X-DR成像检测[J]. 无损检测, 2018, 40(1): 45-49, 66.
Zhong Fei, Zhang Xiaochun, Huang Shengping, et al.The X-DR imaging detection of simulation defect in GIS basin-type insulator[J]. Nondestructive Testing, 2018, 40(1): 45-49, 66.
[76] 闫文斌, 王达达, 李卫国, 等. X射线对复合绝缘子内部缺陷的透照检测和诊断[J]. 高压电器, 2012, 48(10): 58-66.
Yan Wenbin, Wang Dada, Li Weiguo, et al.Appli- cation of X-ray technology in composite insulators defect diagnosis[J]. High Voltage Apparatus, 2012, 48(10): 58-66.
[77] 闫文斌, 王达达, 李卫国, 等. 复合绝缘子陡波击穿原因可视化分析[J]. 高压电器, 2016, 52(8): 114-119.
Yan Wenbin, Wang Dada, Li Weiguo, et al.Visualization analysis of steep-wave breakdown of composite insulator[J]. High Voltage Apparatus, 2016, 52(8): 114-119.
[78] Gubanski S M, Dernfalk A, Andersson J, et al.Diagnostic methods for outdoor polymeric insu- lators[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2007, 14(5): 1065-1080.
[79] Altafim R A, Murakami C R, Cruvinel P E, et al.Computed X-ray tomography for analyzing polymer insulators[C]//Conference on Electrical Insulation and Dielectric Phenomena, 2001 Annual Report, Kitchener, 2001: 149-152.
[80] 陆荣林, 费云鹏, 白宝泉. 微波检测原理及其在复合材料中的应用[J]. 玻璃钢/复合材料, 2001, 1(2): 40-41.
Lu Ronglin, Fei Yunpeng, Bai Baoquan.Microwave detection principle and application in composites[J]. Fiber Reinforced Plastics/Composites, 2001, 1(2): 40-41.
[81] Qaddoumi N, El-Hag A H, Al Hosani M, et al. Detecting defects in outdoor non-ceramic insulators using near-field microwave non-destructive testing[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2010, 17(2): 402-407.
[82] Mei Hongwei, Chen Jie, Fu Xiangyun, et al.Microwave reflection method for composite insulator internal defect detection[C]//IET International Con- ference on AC and DC Power Transmission, Beijing, China, 2016: 564.
[83] 王黎明, 李昂, 成立, 等. 基于微波反射法的复合绝缘子无损检测方法[J]. 高电压技术, 2015, 41(2): 584-591.
Wang Liming, Li Ang, Cheng Li, et al.Microwave- based non-destructive testing method on composite insulators[J]. High Voltage Engineering, 2015, 41(2): 584-591.
[84] 赵伟, 李昂, 赵庆州, 等. 微波反射法检测复合绝缘子内部缺陷方法研究[J]. 陕西电力, 2015, 43(1): 6-9.
Zhao Wei, Li Ang, Zhao Qingzhou, et al.Research on internal defect detection of composite insulators with microwave reflection method[J]. Shaanxi Electric Power, 2015, 43(1): 6-9.
[85] 王黎明, 李昂, 成立. 复合绝缘子微波无损检测方法的关键因素研究[J]. 高电压技术, 2017, 43(1): 203-209.
Wang Liming, Li Ang, Cheng Li.Key factors of microwave non-destructive testing on composite insulators[J]. High Voltage Engineering, 2017, 43(1): 203-209.
[86] Li Ang, Wang Liming, Mei Hongwei, et al.Non- destructive testing of internal defects in composite insulators using microwave technique[C]//Electrical Insulation & Dielectric Phenomena, Michigan, 2015: 668-671.
[87] Xun Wang.Pulse-echo thermal wave lmaging of metals and composite[D]. Wayne State University, 2001.
[88] 樊丹丹. 基于红外热波的界面脱粘无损检测技术研究[D]. 太原: 中北大学, 2011.
[89] 王黎明, 刘立帅, 梅红伟, 等. 基于脉冲红外热波技术的支柱瓷绝缘子无损检测方法[J]. 中国电机工程学报, 2017, 37(24): 7359-7366, 7450.
Wang Liming, Liu Lishuai, Mei Hongwei, et al.Nondestructive testing method of post porcelain insulator based on pulsed infrared thermal wave technology[J]. Proceedings of the CSEE, 2017, 37(24): 7359-7366, 7450.
[90] 南方电网科学研究院. 运行复合绝缘子损坏特性及缺陷检测和评价方法的研究[R]. 广州: 中国南方电网有限责任公司, 2013.
[91] 王汉卿, 成立, 廖瑞金, 等. 复合绝缘子交界面非线性力学模型及弱粘接缺陷无损检测方法[J]. 中国电机工程学报, 2019, 39(3): 1-12.
Wang Hanqing, Cheng Li, Liao Ruijin, et al.Nonlinear mechanical model of composite insulator interface and nondestructive testing method for weak bonding defects[J]. Proceedings of the CSEE, 2019, 39(3): 1-12.
[92] 肖琦, 蔡景素, 高飞, 等. 微风振动下复合绝缘子芯棒与护套界面胶接处疲劳分析[J]. 电气应用, 2011, 30(12): 73-77.
Xiao Qi, Cai Jingsu, Gao Fei, et al.Fatigue analysis of interface between composite insulator core rod and sheath under breeze vibration[J]. Electrotechnical Application, 2011, 30(12): 73-77.
[93] 马艳枝, 张艳红, 刘占民. 支柱式绝缘子的粘结层脱粘失效仿真分析[J]. 电瓷避雷器, 2016(2): 40-44.
Ma Yanzhi, Zhang Yanhong, Liu Zhanmin.Research on mechanical behavior of interface cracking damage of solid core post insulator of ceramic material[J]. Insulators and Surge Arresters, 2016(2): 40-44.
[94] 王成江, 梁清雲, 李如锋. 界面微气隙大小对复合绝缘子绝缘性能的影响[J]. 水电能源科学, 2016(4): 186-190.
Wang Chengjiang, Liang Qingyun, Li Rufeng.Influences of micro-gap’s size partial interface on insulation performance of composite insulator[J]. Water Resources and Power, 2016(4): 186-190.
[95] 刘晓伟, 张雪峰, 刘春翔, 等. 棒形悬式复合绝缘子内部缺陷对电场分布的影响[J]. 电瓷避雷器, 2014(2): 16-20.
Liu Xiaowei, Zhang Xuefeng, Liu Chunxiang, et al.Influence of internal defects in rod suspension composite insulator on electric field distribution[J]. Insulators and Surge Arresters, 2014(2): 16-20.
[96] 胡建林, 李洋洋, 杨威, 等. 交流110kV复合绝缘子高压端内部气隙尺寸对电场分布的影响[J]. 电网技术, 2018, 42(5): 1646-1653.
Hu Jianlin, Li Yangyang, Yang Wei, et al.Study on influence of air gap size in high-voltage terminal on electric field distribution of AC 110kV composite insulator[J]. Power System Technology, 2018, 42(5): 1646-1653.
[97] Cai Guanyi, Wang Haowei, Jiang Dan, et al.Degradation of fluorinated polyurethane coating under UVA and salt spray. part I: Corrosion resistance and morphology[J]. Progress in Organic Coatings, 2018, 123: 337-349.
[98] Liu Fuwei, Yin Mingxi, Xiong Bangyun, et al.Evolution of micro-structure of epoxy coating during UV degradation progress studied by slow positron annihilation spectroscopy and electrochemical impedance spectroscopy[J]. Electrochimica Acta, 2014, 133: 283-293.
[99] Rain P, Brun E, Guillermin C, et al.Experimental model of a silica/epoxy interface submitted to a hygrothermal aging: a dielectric characterization[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2012, 19(1): 343-351.
[100] Hu Jiming, Zhang Jintao, Zhang Jianqing, et al.A novel method for determination of diffusion coefficient of corrosive species in organic coatings by EIS[J]. Journal of Materials Science, 2004, 39(14): 4475-4479.
[101] Calame J P, Garven M.Dielectric permittivity simu- lations of layered composites with rough interfacial surfaces[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2007, 14(2): 287-295.