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服役导线的力学性能退化研究
引用本文:邓国明,何平,何若冰,王新颖,鞠彦忠.服役导线的力学性能退化研究[J].实验力学,2014,29(4):513-519.
作者姓名:邓国明  何平  何若冰  王新颖  鞠彦忠
作者单位:广东省广东电网公司阳江供电局, 广东阳江 529500;广东省广东电网公司阳江供电局, 广东阳江 529500;广东省广东电网公司阳江供电局, 广东阳江 529500;东北电力大学 建筑工程学院, 吉林吉林 132012;东北电力大学 建筑工程学院, 吉林吉林 132012
基金项目:中国南方电网有限责任公司科技项目(K-GD2012-238); 吉林省科技发展计划项目(201105061)
摘    要:为更清楚地了解阳江35kV服役导线的运行状态,从分析导线断线原因出发,通过对老旧导线的单丝断裂强度、弹性模量、应力应变曲线、拉断力、抗拉强度等综合指标的测试与分析,研究服役导线的力学性能,由试验结果得出:35kV老旧导线钢芯的直径变化对于架空导线的外径变化有直接的影响,老旧导线的铝线直径变化较小,其外径增大1.67%~4.24%;钢单线的拉断应力仍能达到标准中规定值的106%,且伸长率也满足要求;部分铝线的抗拉强度低于95%;绞线拉断力仍能达到95%的计算拉断力。但是相同规格下的老旧导线的抗拉强度比新导线的抗拉强度低2%~18%。结果表明:阳江地区服役三十年以上的老旧导线在力学性能上仍能继续承载。

关 键 词:老旧导线    断线原因    力学性能    运行状态

Studies on the Mechanics Properties Degradation of the Service Conductors
DENG Guo-ming,HE Ping,HE Ruo-bing,WANG Xin-ying and JU Yan-zhong.Studies on the Mechanics Properties Degradation of the Service Conductors[J].Journal of Experimental Mechanics,2014,29(4):513-519.
Authors:DENG Guo-ming  HE Ping  HE Ruo-bing  WANG Xin-ying and JU Yan-zhong
Institution:Guangdong Province Guangdong Grid Co Yangjiang Power Supply Bureau, Yangjiang 529500, Guangdong, China;Guangdong Province Guangdong Grid Co Yangjiang Power Supply Bureau, Yangjiang 529500, Guangdong, China;Guangdong Province Guangdong Grid Co Yangjiang Power Supply Bureau, Yangjiang 529500, Guangdong, China;School of Civil Engineering, Northeast Dianli University, Jilin 132012, Jilin, China;School of Civil Engineering, Northeast Dianli University, Jilin 132012, Jilin, China
Abstract:In order to more clearly understand the running status of Yangjiang 35 kV in service wire, from the analysis of reasons for wire disconnection, mechanical properties of in service wire were analyzed based on measurement of its comprehensive index, such as monofilament breaking strength, modulus of elasticity, stress-strain curve, tensile failure force, tensile strength etc. Results show that firstly, the diameter variation of old steel core wire has direct effect on the outside diameter of overhead wires, the outside diameter of old wire increases 1.67% ~ 4.24%; secondly, the tensile failure stress of single wire reaches 106% of specified value in standard, and the elongation percentage also meets requirements. Most aluminium wires still meet the tensile strength requirements except small part of wires are lower than 95%. The tensile failure force of stranded wire still reaches 95% of the calculated value. The tensile strength of old wire is lower than that of new wire by 2%~18%. Results indicate that the old wires can still continue to carry load.
Keywords:old wire  disconnection reason  mechanical property  running status
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