Cause of Fracture on Current Transformer Drainage Hoop Clamp of Current Transformers
-
摘要: 云南省多座变电站内发现电流互感器引流抱箍线夹断裂,通过宏观分析、化学成分分析、断口分析、金相检验、力学性能测试、有限元分析等方法,对线夹的断裂原因进行了分析。结果表明:铝合金和铜合金抱箍线夹的断裂模式均为脆性断裂,主要原因是安装过程中线夹过度紧固,导致在线夹抱耳结构转折处产生较大的应力集中,当应力超过材料屈服强度时发生断裂。部分铜合金线夹化学成分和断后伸长率不合格也是导致该型线夹断裂的重要原因。Abstract: The fracture of current transformer drainage hoop clamp was found in several substations in Yunnan Province. The causes of fracture on clamp were analyzed by means of macro analysis, chemical composition analysis, fracture analysis, metallographic inspection, mechanical property test and finite element analysis. The results show that the fracture mode of aluminum alloy and copper alloy hoop clamp is brittle fracture. The main reason was that the clamp was over tightened during installation, resulting in large stress concentration at the turning point of the structure of clamp lug. When the stress exceeded the yield strength of the material, the clamp fractured. Unqualified chemical composition and elongation after fracture of some copper alloy clamps were also important reasons for the fracture of this type of clamp.
-
Keywords:
- hoop clamp /
- fracture /
- stress concentration /
- fastening /
- finite element analysis
-
-
[1] 董吉谔.电力金具手册[M].3版.北京:中国电力出版社, 2010. [2] 杨迎春.110 kV隔离开关引流线过渡板断裂原因分析[J].云南电力技术, 2006, 34(2):40-42. [3] 黄乐, 陈亦平, 舒双焰.电流互感器故障所致电网事故及其处置的分析[J].南方电网技术, 2011, 5(4):68-70. [4] 周海滨, 陈国华.500 kV SF6电流互感器事故分析及预防措施[J].高压电器, 2012, 48(6):99-102. [5] 王艳, 张丽, 孟宪阔, 等.热锻黄铜阀门开裂原因及热脆机理分析[J].理化检验(物理分册), 2019, 55(8):579-582. [6] 陈先艳, 杨坤, 曹春兰.CuZn39Pb3铅黄铜接头螺纹处开裂失效分析[J].理化检验(物理分册), 2020, 56(3):48-51. [7] 谢国胜.电网设备金属部件失效典型案例[M].北京:中国电力出版社, 2015. [8] 夏建元, 曾大新, 张红霞.金属材料彩色金相图谱[M].北京:机械工业出版社, 2013. [9] 刘鸿文.材料力学[M].北京:高等教育出版社, 2010. [10] 刘之毅.仿真技术在电力金具设计广泛使用的研究[J].电力金具, 2011(1):6-8. [11] 庄茁.基于ABAQUS的有限元分析和应用[M].北京:清华大学出版社, 2008. -
期刊类型引用(1)
1. 田泽,高元杰,熊宇,沈祎侬,潘星. 某换流站紫铜抱箍线夹开裂原因分析. 湖北电力. 2022(01): 125-129 . 
百度学术
其他类型引用(0)
计量
- 文章访问数: 3
- HTML全文浏览量: 0
- PDF下载量: 1
- 被引次数: 1
下载:
