Optimization of damage repair with piezoelectric actuators using the Taguchi method

Frattura ed Integrità Strutturale Pub Date : 2023-12-17 DOI:10.3221/igf-esis.67.10

Abdul Aabid Shaikh, Meftah Hriari, J. S. Mohamed Ali

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Abstract

Over the last two decades, piezoelectric actuators have emerged as a promising solution for structural repair. In this work, initially the stress intensity factor (SIF) estimation using the finite element (FE) approach at crack tips in aluminium 2024-T3 plates. Based on Taguchi’s L9 orthogonal array the FE simulation has been conducted. Later, this study uses the optimization method via the design of experiments to systematically evaluate the effect of various dimensions and material qualities, especially under the conditions of Mode-I crack propagation. It also investigated the complex interaction of factors impacting adhesive bonds, piezoelectric actuators, and aluminium plates, The study not only analyses the parameter relationships but also examines their controls, identifying those best aligned with primary objectives. This sensitivity enhances the piezoelectric actuator's efficacy and quality. The research determines an optimal parameter combination, developing active repair performance and establishing an essential SIF benchmark. This research explores the complex world of piezoelectric actuator-assisted repairs, providing a road map for better structural rehabilitation.

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使用田口方法优化压电致动器的损伤修复

在过去的二十年中，压电致动器已成为一种很有前途的结构修复解决方案。在这项工作中，首先使用有限元（FE）方法对 2024-T3 铝板裂纹尖端的应力强度因子（SIF）进行估算。在 Taguchi L9 正交阵列的基础上进行了 FE 模拟。随后，本研究通过实验设计采用优化方法，系统地评估了各种尺寸和材料质量的影响，尤其是在模式 I 裂纹扩展条件下的影响。该研究不仅分析了参数关系，还研究了参数控制，确定了与主要目标最匹配的参数。这种敏感性提高了压电致动器的功效和质量。研究确定了最佳参数组合，开发了主动修复性能，并建立了重要的 SIF 基准。这项研究探索了压电致动器辅助修复的复杂世界，为更好的结构修复提供了路线图。

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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Frattura ed Integrità Strutturale

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