Fatigue monitoring of coated steel belts by means of magnetic inspection

Insight - Non-Destructive Testing and Condition Monitoring Pub Date : 2023-03-01 DOI:10.1784/insi.2023.65.3.153

Sunqiang Liu, Guisuo Xia, Zhihui Wen, Qiwei Cai, Mingliang Liao

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Abstract

Coated steel belts (CSBs) are the primary load-bearing components of elevators. As a result, they may experience severe fatigue failure during their long-term service. In this study, a flexible fatigue fixture for CSBs is designed to simulate the CSB fatigue damage process for implementing a tensile fatigue test. The magnetic induction intensity signal on the surface of the CSB in a geomagnetic field environment is recorded using a high-precision weak magnetic sensor. Moreover, the CSB fatigue damage process is monitored online via the acquired magnetic induction intensity value. The fatigue test results indicate the following: the variation in the magnetic induction intensity signal curve can reflect the entire fatigue failure process when the CSB is under stress; the fatigue failure process of the steel wire inside the CSB does not occur smoothly as its progress occurs in stages; and the variation trend in the residual value between the magnetic induction intensity and fitting curves effectively indicates the degree of fatigue damage caused to the CSB.

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涂覆钢带的磁检疲劳监测

涂层钢带(csb)是电梯的主要承重部件。因此，在长期使用期间，它们可能会经历严重的疲劳失效。在本研究中，设计了一种用于CSB的柔性疲劳夹具，以模拟CSB的疲劳损伤过程，并进行拉伸疲劳试验。利用高精度弱磁传感器记录了地磁场环境下CSB表面的磁感应强度信号。通过获取的磁感应强度值对CSB疲劳损伤过程进行在线监测。疲劳试验结果表明:应力作用下CSB磁感应强度信号曲线的变化可以反映CSB的整个疲劳破坏过程;CSB内部钢丝的疲劳破坏过程不是平稳的，而是分阶段进行的;磁感应强度残值与拟合曲线之间的变化趋势可以有效地反映CSB的疲劳损伤程度。

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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Insight - Non-Destructive Testing and Condition Monitoring

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