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高低温下复合绝缘子抗拉性能试验
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TU311

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国家自然科学基金资助项目(51778097);重庆市自然科学基金资助(cstc2017jcyjB0210,cstc2018jscx-msybX0284)。


Tests of tensile properties of composite insulators at high and low temperatures
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    摘要:

    复合绝缘子是由芯体和装配有金属附件的外套构成。芯体多采用环氧树脂浸渍的玻璃纤维增强塑料制成,是一种强度高、非脆性复合材料。但在芯棒与伞套之间的粘结层是薄弱环节,在大温差地区容易受力学破坏。文中采用Instron1186电子万能试验机,通过位移控制进行材料力学性能试验,研究复合绝缘子分别在高低温作用下的抗拉性能。试验表明,复合绝缘子机械破坏负荷取决于金具与芯棒连接强度,其破坏的主要特征为端部金具的滑移。因为端部金具的热膨胀系数与玻璃纤维增强环氧树脂芯棒有较大差异,无论是在高温还是低温,复合绝缘子的力学性能均较常温状态产生下滑,尤其是高温下,金具与芯棒的黏结滑移性能会降低50%甚至更多。

    Abstract:

    Composite insulators are composed of a core and a coat with metal attachments. The core is made of glass fiber reinforced plastics impregnated with an epoxy resin. This material is a kind of high strength and non-brittle composite. But the interface in an adhesive layer between a mandrel and an umbrella is the weak link, which is susceptible to mechanical damage in the areas with significant changing temperatures. The Instron1186 electronic universal testing machine is adopted to carry out the material mechanical property tests through controlling displacements, and the tensile properties of composite insulators under high and low temperatures are studied. The test shows that the mechanical failure load of composite insulators depends on the connection strength of the metal tool and the mandrel, and the main features of the failure are the slip of the end of the metal tool. Because the thermal expansion coefficient of the end fittings is significantly different from that of glass fiber reinforced epoxy mandrel, the mechanical properties of composite insulators are lower than normal temperature at high temperatures or low temperatures. Especially at a high temperature, the bonding-slip property of the metal tool and the core rod is greatly reduced.

    参考文献
    [1] Paris L, Pargamin L, Dumorora D, et al. Rating of composite suspension insulators related to the long term mechanical strength of rods[J]. IEEE Transactions on Power Delivery, 1994, 9(4):2055-2063.
    [2] Kumosa M, Han Y, Kumosa L. Analyses of composite insulators with crimped end-fittings:Part I-non linear finite element computations[J]. Composites Science & Technology, 2002, 62(9):1191-1207.
    [3] De Tourreil C, Roberge R, Bourdon P. Long-term mechanical properties of high voltage composite insulators[J]. Power Apparatus & Systems IEEE Transactions on, 1985, PAS-104(10):2918-2921.
    [4] 丁京玲,党镇平,姚喜年,等.±800 kV直流棒形悬式复合绝缘子的研究[J].电瓷避雷器,2011(2):1-6.DING Jingling, DANG Zhenping, YAO Xinian, et al. +800 kV DC rod suspension composite insulator[J]. Electric Porcelain Lightning Arrester, 2011(2):1-6.(in Chinese)
    [5] 张树华,张丽珍.绝缘子的拉伸破坏分析研究[J].绝缘材料,2001(4):41-43.ZHANG Shuhua, ZHANG Lizhen. Tensile failure analysis of insulators[J]. Insulating Materials, 2001(4):41-43.(in Chinese)
    [6] 欧阳民康.高电压悬式合成绝缘子玻璃钢棒芯材料的力学性能分析[J].武汉水利电力学院学报,1984(4):23-31. OUYANG Minkang.Mechanical properties analysis of high voltage suspension composite insulator FRP rod-core material[J].Journal of Wuhan Institute of Water Resources and Electricity, 1984(4):23-31.(in Chinese)
    [7] 武怀永.复合绝缘子的力学性能研究[J].农村电气化,2005(10):48-49.WU Huaiyong. Mechanical properties of composite insulators[J]. Rural electrification, 2005(10):48-49.(in Chinese)
    [8] 袁骏.特高压线路用复合绝缘子的机械性能[J].电网技术,2006(12):29-32. YUAN Jun. Mechanical properties of composite insulators for UHV transmission lines[J]. Power grid technology, 2006(12):29-32.(in Chinese)
    [9] 余涛,杨新华.压接式复合绝缘子接头处的破坏分析[J].水电能源科学,2010,28(10):139-141. YU Tao, YANG Xinhua. Damage analysis at the joint of pressed composite insulators[J]. Hydropower Energy Science, 2010, 28(10):139-141.(in Chinese)
    [10] 谢占山. 500kV"V"串复合绝缘子机械疲劳试验研究[D]. 北京:华北电力大学, 2012. XIE Zhanshan. Mechanical fatigue test of 500 kV "V" series composite insulators[D]. Beijing:North China Electric Power University, 2012.(in Chinese)
    [11] 徐如恬.瓷绝缘子强度及瓷材料种类强度水平的探讨[J].电瓷避雷器,1988(1):1-8. XU Rutian.Study on the strength of porcelain insulators and the strength level of different kinds of ceramic materials[J].Electric Porcelain Arresters, 1988(1):1-8.(in Chinese)
    [12] 滕国利,魏宁,徐礼贤.±800kV特高压直流棒形悬式复合绝缘子的研制[J].电网技术,2006(12):83-86. TENG Guoli, WEI Ning, XU Lixian. +800 kV UHVDC rod suspension composite insulator development[J]. Power Grid Technology, 2006(12):83-86.(in Chinese)
    [13] 易春芳,梁培松,梁英,等.陶瓷改性复合绝缘子材料的力学性能研究[J].绝缘材料,2015,48(1):10-14. YI Chunfang, LIANG Peishong, LIANG Ying, et al. Mechanical properties of ceramic modified composite insulators[J]. Insulation Materials, 2015, 48(1):10-14.(in Chinese)
    [14] 姚莉娜,吴颖晖,王少华,等.挂网运行复合绝缘子的电气及力学性能研究[J].绝缘材料,2015,48(8):23-27. YAO Lina, WU Yinghui, WANG Shaohua, et al. Electrical and mechanical properties of composite insulators for hanging-net operation[J]. Insulation Materials, 2015, 48(8):23-27.(in Chinese)
    [15] 张玥,谢强,何畅,等.特高压复合支柱绝缘子力学性能试验研究[J].南方电网技术,2017,11(11):27-33,67.ZHANG Yue, XIE Qiang, HE Chang, et al. Experimental study on mechanical properties of UHV composite post insulators[J]. Southern Power Grid Technology, 2017, 11(11):27-33,67.(in Chinese)
    [16] 张硕, 姚宁, 吴继平,等. 玻璃纤维增强环氧树脂复合材料的力学性能[J]. 电工材料, 2016(1):11-14. ZHANG Shuo, YAO Ning, WU Jiping, et al. Mechanical properties of glass fiber reinforced epoxy resin composites[J]. Electrical Materials, 2016(1):11-14.(in Chinese)
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马文俊,晏致涛,张璞,裘哲,游溢.高低温下复合绝缘子抗拉性能试验[J].重庆大学学报,2020,43(3):62-69.

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  • 收稿日期:2019-10-11
  • 在线发布日期: 2020-03-31
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