棒形悬式复合绝缘子伞裙和护套间界面粘接性能研究
|
摘要
主要研究为采用端部压接式、芯棒挤包护套伞裙套装工艺生产的棒形悬式复合绝缘子。为了确保棒形悬式复合绝缘子伞裙和护套间界面粘接性能,保证线路运行安全性,分别对样品进行耐盐水性能、耐低温性能、水扩散试验、X射线及陡波冲击耐受电压试验等方法对伞套界面强度进行研究。研究表明:通过上述试验棒形悬式复合绝缘子伞裙和护套间界面粘接性能良好,满足输电线路运行要求。
The main research object is the rod suspension composite insulator produced by the end crimping type and the core rod extrusion sheathed and shed set process.Analysis test are carried out after the sample has been subjected to the effect of brine resistance,low temperature resistance,water diffusion test and X-ray,in order to ensure the interface adhesion performance between the rod suspension composite insulator shed and the sheath to ensure the safe operation of the power line.The results revealed that composite insulators shed and sheath of interface bonding performance is good,meet the requirements of transmission line operation.
The main research object is the rod suspension composite insulator produced by the end crimping type and the core rod extrusion sheathed and shed set process.Analysis test are carried out after the sample has been subjected to the effect of brine resistance,low temperature resistance,water diffusion test and X-ray,in order to ensure the interface adhesion performance between the rod suspension composite insulator shed and the sheath to ensure the safe operation of the power line.The results revealed that composite insulators shed and sheath of interface bonding performance is good,meet the requirements of transmission line operation.
引文
[1]王海跃,李香龙,汲胜昌,等.合成绝缘子在线检测方法的现状与发展[J].高电压技术,2005,31(4):37-42.WANG Haiyue,LI Xianglong,JI Shengchang,et al.Present and future development of On-Line detection methods for composite insulator[J].High Voltage Engineering,2005,31(4):37-42.
[2]Papailiou K.O.Composite insulators are gaining ground25 years of Swiss experience[C].Transmission and distribution conference,1999:827-833.
[3]宿志一,陈刚,李庆峰,等.硅橡胶复合绝缘子伞裙护套的老化及其判据研究[J].电网技术,2006,30(12):53-57.SU Zhiyi,CHEN Gang,LI Qingfeng,et al.Study on aging and criterion of sheds and housing of silicone rubber composite insulator[J].Power System Technology,2006,30(12):53-57.
[4]HACKAM R.Outdoor HV composite polymeric insulators[J].Dielectrics and Electrical Insulation,IEEE Transactions on,1999,6(5):557-585.
[5]关志成,彭功茂,王黎明,等.复合绝缘子的应用及关键技术研究[J].高电压技术,2011,37(3):513-519.GUAN Zhicheng,PENG Gongmao,WANG Liming,et al.Application and key technical study of composite insulators[J].High Voltage Engineering,2011,37(3):513-519.
[6]王光国,张平,王跃林.气相法白炭黑的重要应用领域---复合绝缘子[J].有机硅氟资讯,2005(2):15-17.WANG Guangguo,ZHANG Ping,WANG Yuelin.One main application area of fumed silica composite insulators[J].Silicone and Fluorine Information,2005(2):15-17.
[7]吴经锋,袁检,张建荣,等.复合绝缘子老化评估方法浅析[J].高压电器,2003,39(2):32-33,38.WU Jingfeng,YUAN Jian,ZHANG Jianrong,et al.A-nalysis on the evaluation method of aging for composite insulators[J].High Voltage Apparatus,2003,39(2):32-33,38.
[8]崔江流,宿志一,易辉.我国硅橡胶合成绝缘子的应用与展望[J].中国电力,1999,32(1):40-43.CUI Jiangliu,SU Zhiyi,YI Hui.The application and its prospect of silicone rubber composite insulators in China[J].Electric Power,1999,32(1):40-43.
[9]张锐,吴光亚,袁田,等.我国复合绝缘子关键制造技术的发展与展望[J].高电压技术,2007,33(1):106-110.ZHANG Rui,WU Guangya,YUAN Tian,et al.Development history and direction of composite insulators on important manufacture technique[J].High Voltage Engineering,2007,33(1):106-110.
[10]国家技术监督局.GB/T 2791-1995胶粘剂T剥离强度试验方法挠性材料对挠性材料[S].北京:中国标准出版社,1995.
[11]张福林,段旻.复合绝缘子伞套间粘接结构性能[J].电瓷避雷器,2005(2):8-11.ZHANG Fulin,DUAN Min.Study on adhesion performance between insulator shed and sheath[J].Insulators and Surge Arresters,2005(2):8-11.
[12]秦国富.复合绝缘子界面胶接过程的分析[J].电瓷避雷器,2005(4):12-14.QIN Guofu.Analysis on interface adhering process of composite insulator[J].Insulators and Surge Arresters,2005(4):12-14.
[13]吴光亚,蔡炜,肖国英,等.复合绝缘子的运行特性及可靠性分析[J].电瓷避雷器,2004(1):3-9.WU Guangya,CAI Hui,XIAO Guoying,et al.Service behaviour and reliability analysis of composite insulators[J].Insulators and Surge Arresters,2004(1):3-9.
[14]任贵清,李晓明,郭振芳,等.硅橡胶复合绝缘子耐低温性能研究[J].电瓷避雷器,2012(5):1-4,8.REN Guiqing,LI Xiaoming,GUO Zhenfang,et al.Research of performance of silicone rubber composite insulators at the low temperature[J].Insulators and Surge Arresters,2012(5):1-4,8.
[15]苏正涛,王景鹤.耐高低温硅橡胶的研究[J].航空材料学报,2006,26(3):207-212.SU Zhengtao,WANG Jinghe.Properties of silicone rubber at high or low temperature[J].Journal of Aeronautical Materials,2006,26(3):207-212.
[16]黄艳华,孙全吉,米志安,等.侧基对硅橡胶低温性能的影响[J].特种橡胶制品,2010,33(4):17-19,23.HUANG Yanhua,SUN Quanji,MI Zhian,et al.Effect of organic side group on low temperature-resistance of Silicon rubber[J].Special Purpose Rubber Products,2010,33(4):17-19,23.
[2]Papailiou K.O.Composite insulators are gaining ground25 years of Swiss experience[C].Transmission and distribution conference,1999:827-833.
[3]宿志一,陈刚,李庆峰,等.硅橡胶复合绝缘子伞裙护套的老化及其判据研究[J].电网技术,2006,30(12):53-57.SU Zhiyi,CHEN Gang,LI Qingfeng,et al.Study on aging and criterion of sheds and housing of silicone rubber composite insulator[J].Power System Technology,2006,30(12):53-57.
[4]HACKAM R.Outdoor HV composite polymeric insulators[J].Dielectrics and Electrical Insulation,IEEE Transactions on,1999,6(5):557-585.
[5]关志成,彭功茂,王黎明,等.复合绝缘子的应用及关键技术研究[J].高电压技术,2011,37(3):513-519.GUAN Zhicheng,PENG Gongmao,WANG Liming,et al.Application and key technical study of composite insulators[J].High Voltage Engineering,2011,37(3):513-519.
[6]王光国,张平,王跃林.气相法白炭黑的重要应用领域---复合绝缘子[J].有机硅氟资讯,2005(2):15-17.WANG Guangguo,ZHANG Ping,WANG Yuelin.One main application area of fumed silica composite insulators[J].Silicone and Fluorine Information,2005(2):15-17.
[7]吴经锋,袁检,张建荣,等.复合绝缘子老化评估方法浅析[J].高压电器,2003,39(2):32-33,38.WU Jingfeng,YUAN Jian,ZHANG Jianrong,et al.A-nalysis on the evaluation method of aging for composite insulators[J].High Voltage Apparatus,2003,39(2):32-33,38.
[8]崔江流,宿志一,易辉.我国硅橡胶合成绝缘子的应用与展望[J].中国电力,1999,32(1):40-43.CUI Jiangliu,SU Zhiyi,YI Hui.The application and its prospect of silicone rubber composite insulators in China[J].Electric Power,1999,32(1):40-43.
[9]张锐,吴光亚,袁田,等.我国复合绝缘子关键制造技术的发展与展望[J].高电压技术,2007,33(1):106-110.ZHANG Rui,WU Guangya,YUAN Tian,et al.Development history and direction of composite insulators on important manufacture technique[J].High Voltage Engineering,2007,33(1):106-110.
[10]国家技术监督局.GB/T 2791-1995胶粘剂T剥离强度试验方法挠性材料对挠性材料[S].北京:中国标准出版社,1995.
[11]张福林,段旻.复合绝缘子伞套间粘接结构性能[J].电瓷避雷器,2005(2):8-11.ZHANG Fulin,DUAN Min.Study on adhesion performance between insulator shed and sheath[J].Insulators and Surge Arresters,2005(2):8-11.
[12]秦国富.复合绝缘子界面胶接过程的分析[J].电瓷避雷器,2005(4):12-14.QIN Guofu.Analysis on interface adhering process of composite insulator[J].Insulators and Surge Arresters,2005(4):12-14.
[13]吴光亚,蔡炜,肖国英,等.复合绝缘子的运行特性及可靠性分析[J].电瓷避雷器,2004(1):3-9.WU Guangya,CAI Hui,XIAO Guoying,et al.Service behaviour and reliability analysis of composite insulators[J].Insulators and Surge Arresters,2004(1):3-9.
[14]任贵清,李晓明,郭振芳,等.硅橡胶复合绝缘子耐低温性能研究[J].电瓷避雷器,2012(5):1-4,8.REN Guiqing,LI Xiaoming,GUO Zhenfang,et al.Research of performance of silicone rubber composite insulators at the low temperature[J].Insulators and Surge Arresters,2012(5):1-4,8.
[15]苏正涛,王景鹤.耐高低温硅橡胶的研究[J].航空材料学报,2006,26(3):207-212.SU Zhengtao,WANG Jinghe.Properties of silicone rubber at high or low temperature[J].Journal of Aeronautical Materials,2006,26(3):207-212.
[16]黄艳华,孙全吉,米志安,等.侧基对硅橡胶低温性能的影响[J].特种橡胶制品,2010,33(4):17-19,23.HUANG Yanhua,SUN Quanji,MI Zhian,et al.Effect of organic side group on low temperature-resistance of Silicon rubber[J].Special Purpose Rubber Products,2010,33(4):17-19,23.