Lamb Waves Topological Imaging of Multiple Blind Defects in an Isotropic Plate

June 2019 Pub Date : 2019-06-01 DOI:10.20855/IJAV.2019.24.21479

Wenfa Zhu, Haiyan Zhang, Mengling Xu, Guopeng Fan

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引用次数: 2

Abstract

The study investigates the feasibility of the Lamb wave topological imaging method for detecting multiple blindholes in an isotropic plate. The topological imaging method is performed based on the computations of two wave fields, a forward and an adjoint, in the defect-free reference medium using different emitting sources. The image is computed by multiplying the forward and adjoint wave fields together and integrating them over time or frequency. The interferences of multimode aliasing and the scattering effect can thus be eliminated at the defectfree positions with an improved image resolution. To investigate the physical mechanism, the refocusing process of the multimode Lamb waves at the defect positions is presented by a face-to-face comparison between the snapshots of the forward and adjoint wave fields using the finite element simulation. The Lamb wave topological imaging method is numerically and experimentally verified to identify multiple blind-holes in an isotropic aluminium plate. The results demonstrate that the topological imaging method enables the suppression of the sartefacts resulting from the mode conversion and achieve high-resolution imaging of the blind defects

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各向同性板中多盲缺陷的Lamb波拓扑成像

研究了用兰姆波拓扑成像方法检测各向同性板中多个盲孔的可行性。在无缺陷参考介质中，利用不同的发射源计算正演波场和伴随波场，实现了拓扑成像方法。图像是通过将前向波场和伴随波场相乘，并对它们随时间或频率积分来计算的。因此，可以在无缺陷位置消除多模混叠的干扰和散射效应，从而提高图像分辨率。为了研究多模兰姆波在缺陷位置的重聚焦过程的物理机制，采用有限元模拟的方法，对正演波场和伴随波场的快照进行了面对面的比较。通过数值和实验验证了Lamb波拓扑成像方法在各向同性铝板中多盲孔的识别效果。结果表明，拓扑成像方法能够抑制模式转换产生的伪影，实现对盲缺陷的高分辨率成像

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来源期刊

June 2019

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