超声纵向临界折射波法测量GIS盆地绝缘子残余应力

2021 International Conference on Electrical Materials and Power Equipment (ICEMPE) Pub Date : 2021-04-11 DOI:10.1109/ICEMPE51623.2021.9509141

Xu Yang, Changhong Zhang, Weiguo Li, Chao Gao, F. Zhou, Ruodong Huang, Guoli Wang, Xuezhi Liang

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引用次数: 1

摘要

GIS盆式绝缘子在固化过程中会产生残余应力。残余应力与外部应力的耦合会引起应力集中，威胁绝缘子的安全运行。本文介绍了利用临界折射纵波(LCR)检测252kV GIS盆地绝缘子残余应力的方法。建立了残余应力检测系统。激励和接收探头的主频率为2mhz。测定了环氧树脂标准样品的超声速度。在盆状绝缘子上选择两个检测点进行周向残余应力检测，检测点距离为5mm。结果表明，标准样品的超声速度为2927 m/s。两个检查点的超声传播时间不同。在中心导体附近，超声声速为3399 m/s，残余压应力为0.38 MPa。超声声速为3073 m/s，离中心导体较远处残余压应力为0.12 MPa。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Measurement of Residual Stress in GIS Basin Insulators by Using Ultrasonic Longitudinal Critically Refracted Wave Method

The residual stress could be produced during the curing process of GIS basin insulators. The coupling of residual stress and external stress may cause stress concentration, which threaten the safe operation of the insulators. In this paper, the method for detecting residual stress of a 252kV GIS basin insulator by critical refraction longitudinal wave (LCR) is presented. The residual stress detection system is built. The main frequency of excitation and receiving probe is 2 MHz. The ultrasonic velocity of epoxy resin standard sample is measured. Two checkpoints on the basin insulator are selected for the circumferential residual stress detection with a distance of 5 mm. The results show that ultrasonic velocity of the standard sample is 2927 m/s. The ultrasonic propagation time of the two checkpoints is different. Near the central conductor, the ultrasonic velocity is 3399 m/s and the compressive residual stress is 0.38 MPa. The ultrasonic velocity is 3073 m/s and the compressive residual stress is 0.12 MPa far away from the central conductor.

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2021 International Conference on Electrical Materials and Power Equipment (ICEMPE)

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