A Novel Method for Failure Mode and Effect Analysis Based on the Fermatean Fuzzy Set and Bonferroni Mean Operator

Machines Pub Date : 2024-05-13 DOI:10.3390/machines12050332

Liangsheng Han, Mingyi Xia, Yang Yu, Shuai He

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Abstract

Failure mode and effects analysis (FMEA) helps to identify the weak points in the processing, manufacturing, and assembly of products and plays an important role in improving product reliability. To address the shortcomings of the existing FMEA methods in terms of the uncertainty treatment of information and not considering the weights and correlations between risk factors, we propose a new FMEA method. In this paper, the Fermatean fuzzy Z-number (FFZN) is proposed by fusing the Fermatean fuzzy number and Z-number. Extending it to the Bonferroni mean (BM) operator, the Fermatean fuzzy Z-number-weighted Bonferroni mean (FFZWBM) operator is proposed. A new FMEA method is proposed based on this operator. In order to overcome the factors not considered in the FMEA method, two new risk factors are proposed and added. The ability of experts to express fuzzy information is enhanced by introducing the FFS. The weights and correlations between the influencing factors can be handled by aggregating the evaluation information using the FFZWBM operator. Finally, the proposed method is applied to an arithmetic example and the accuracy of the proposed method is proved by teaming it with other methods.

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基于费尔马特模糊集和邦费罗尼均值运算器的故障模式与影响分析新方法

失效模式与效应分析（FMEA）有助于识别产品在加工、制造和装配过程中的薄弱环节，在提高产品可靠性方面发挥着重要作用。针对现有 FMEA 方法在信息不确定性处理、不考虑风险因素之间的权重和相关性等方面的不足，我们提出了一种新的 FMEA 方法。本文通过融合费尔马特模糊数和 Z 数，提出了费尔马特模糊 Z 数（FFZN）。将其扩展到邦弗罗尼均值（BM）算子，提出了费尔马特模糊 Z 数加权邦弗罗尼均值（FFZWBM）算子。基于该算子，提出了一种新的 FMEA 方法。为了克服 FMEA 方法未考虑的因素，提出并增加了两个新的风险因素。通过引入 FFS，增强了专家表达模糊信息的能力。通过使用 FFZWBM 算子汇总评价信息，可以处理影响因素之间的权重和相关性。最后，将所提出的方法应用于一个算例，并通过与其他方法的组合证明了所提出方法的准确性。

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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Machines

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