Reliability analysis of subway sliding plug doors based on improved FMECA and Weibull distribution

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2024-02-11 DOI:10.17531/ein/178275

Weibo Wang, Wenxiu Liu, Yu Fang, Yongkang Zheng, Chuan Lin, Yonghua Jiang, Dong Liu

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Abstract

Using traditional FMECA to analyze the hazard of subway sliding plug door system, there are problems such as easy-to-take repetitive values, irrational allocation of expert's weights, and failure to consider the weights of evaluation factors. Hence, this paper proposes to improve FMECA by using linear interpolation to increase the differentiation of the same fault probability occurrence among various fault modes. Apply the DUOWA to dynamically assign weights to different experts. The AHP is used to endow weights to diverse evaluation factors to make them more suitable for engineering needs. The operation records of metro trains were collected from the Shanghai subway manufacturing plant for 1836 days. The hazards of the 17 common faults of the door were first analyzed using an improved FMECA,the EDCU is the component most prone to failure. Next, use a RCM strategy to determine maintenance periods for different faults. Finally, through the Weibull distribution fitting test, the fault rate function of the door is obtained, and the RUL of the door is predicted.

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基于改进的 FMECA 和 Weibull 分布的地铁塞拉门可靠性分析

采用传统的FMECA方法对地铁塞拉门系统进行危险性分析，存在易取重复值、专家权重分配不合理、未考虑评价因素权重等问题。因此，本文提出采用线性插值的方法来改进 FMECA，以增加各种故障模式间相同故障发生概率的区分度。应用 DUOWA 为不同专家动态分配权重。采用 AHP 对不同的评价因素赋予权重，使其更符合工程需要。从上海地铁制造厂收集了 1836 天的地铁列车运行记录。首先使用改进的 FMECA 分析了车门 17 种常见故障的危害性，其中 EDCU 是最容易发生故障的部件。其次，使用 RCM 策略确定不同故障的维护周期。最后，通过 Weibull 分布拟合检验，得到门的故障率函数，并预测门的 RUL。

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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Eksploatacja i Niezawodność – Maintenance and Reliability

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