Forward and Inverse Analysis of Love Wave Scattering by Interface Cavities

IF 1.3 3区 物理与天体物理 Q3 ACOUSTICS
Bin Wang, Chen Yang, Z. Qian
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引用次数: 3

Abstract

Love waves have great potential in geological inspection and ultrasonic nondestructive testing for near-surface underground characteristics. A thorough and effective utilization of the Love wave requires a better understanding of its scattering phenomenon. The paper studies the problem of Love wave scattering by cavity-like flaws on the interface between the upper layer and the lower half-plane. For the forward analysis, we suggest a modified boundary element method (BEM) incorporating the far-field displacement patterns, which can effectively eliminate fictitious reflections introduced by model truncation. For inverse analysis, we propose a quantitative reconstruction procedure for the flaw shape using reflection coefficients of the first-order Love wave. By theoretical deduction, it can be proved that the cavity’s geometric shape is approximately expressed as an inverse spatial Fourier transform of far-field reflection coefficients in the wavenumber domain. Numerical examples are given by substituting the reflection coefficients obtained from the forward analysis into the inversion algorithm, and high consistency is shown between the reconstructed flaw images and the geometric characteristics of the actual flaws.
界面空腔Love波散射的正反分析
Love波在地质探测和近地表地下特征超声无损检测中具有很大的应用潜力。彻底有效地利用洛夫波需要更好地理解它的散射现象。本文研究了上下半平面交界面上的腔状缺陷对Love波的散射问题。对于正演分析,我们提出了一种改进的边界元法(BEM),该方法结合了远场位移模式,可以有效地消除模型截断带来的虚假反射。为了进行反分析,我们提出了一种利用一阶Love波反射系数定量重建缺陷形状的方法。通过理论推导,可以证明空腔的几何形状近似表示为远场反射系数在波数域中的空间傅里叶反变换。将正演分析得到的反射系数代入反演算法,给出了数值算例,重建的缺陷图像与实际缺陷的几何特征具有较高的一致性。
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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来源期刊
Journal of Theoretical and Computational Acoustics
Journal of Theoretical and Computational Acoustics Computer Science-Computer Science Applications
CiteScore
2.90
自引率
42.10%
发文量
26
期刊介绍: The aim of this journal is to provide an international forum for the dissemination of the state-of-the-art information in the field of Computational Acoustics. Topics covered by this journal include research and tutorial contributions in OCEAN ACOUSTICS (a subject of active research in relation with sonar detection and the design of noiseless ships), SEISMO-ACOUSTICS (of concern to earthquake science and engineering, and also to those doing underground prospection like searching for petroleum), AEROACOUSTICS (which includes the analysis of noise created by aircraft), COMPUTATIONAL METHODS, and SUPERCOMPUTING. In addition to the traditional issues and problems in computational methods, the journal also considers theoretical research acoustics papers which lead to large-scale scientific computations.
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