Vibration-Based Non-Destructive Evaluation of Internal Damage in Foam Cored Sandwich Structures Using Wavelet Analysis

A. Katunin
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引用次数: 3

Abstract

Modern mechanical and civil structures are increasingly designed using polymeric composites that ensure great strength-to-mass ratio and are resistant to various environmental interactions, like corrosion. The application of sandwich structures in the design of mechanical and civil constructions is determined by their good stiffness properties and very low mass, which is a very attractive combination. Due to their wide applicability, these structures should be properly maintained and diagnosed, and thus, appropriate non-destructive testing (NDT) methods should be developed in order to detect and identify various types of damage. Special attention should be paid to internal damage (damage to the core of a sandwich structure), which cannot be detected during a visual inspection. In the paper, an NDT method based on modal analysis and further processing of modal shapes using a wavelet transform is proposed. Three sandwich structures with damage to the core of various types were experimentally tested using modal analysis, the damage positions were detected and identified using wavelet analysis, and verified by comparing the results of previously performed thermographic tests. The obtained results show a high effectiveness of the proposed approach, which could find an application in the industrial inspection of sandwich structures in a non-destructive and non-contact manner.
基于小波分析的泡沫芯夹层结构内部损伤振动无损评价
现代机械和土木结构越来越多地使用聚合物复合材料设计,以确保更大的强度与质量比,并耐各种环境相互作用,如腐蚀。夹层结构在机械和土木建筑设计中的应用,是由其良好的刚度和极低的质量决定的,这是一个非常有吸引力的组合。由于其广泛的适用性,这些结构应该得到适当的维护和诊断,因此,应该开发适当的无损检测(NDT)方法,以检测和识别各种类型的损伤。应特别注意内部损坏(夹层结构核心的损坏),这在目视检查中是无法检测到的。提出了一种基于模态分析和小波变换对模态振型进行进一步处理的无损检测方法。采用模态分析方法对三种不同类型的夹层结构进行了损伤试验,利用小波分析方法对其损伤位置进行了检测和识别,并通过对比热成像试验结果进行了验证。实验结果表明,该方法具有较高的有效性,可应用于夹层结构的无损、非接触检测。
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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