Mode conversion of fundamental guided ultrasonic wave modes at part-thickness crack-like defects

IF 3.8 2区 物理与天体物理 Q1 ACOUSTICS
Lijian Li, Paul Fromme
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引用次数: 0

Abstract

Guided ultrasonic waves can be employed for efficient structural health monitoring (SHM) and non-destructive evaluation (NDE), as they can propagate long distances along thin structures. The scattering (S0 mode) and mode conversion of low frequency guided waves (S0 to A0 and SH0 wave modes) at part-thickness crack-like defects was studied to quantify the defect detection sensitivity. Three-dimensional (3D) Finite Element (FE) modelling was used to predict the mode conversion and scattering of the fundamental guided wave modes. Experimentally, the S0 mode was excited by a piezoelectric (PZT) transducer in an aluminum plate. A laser vibrometer was used to measure the out-of-plane displacement to characterize the mode-converted A0 mode, employing baseline subtraction to achieve mode and pulse separation. Good agreement between FE model predictions and experimental results was obtained for perpendicular incidence of the S0 mode. The influence of defect depth and length on the scattering and mode conversion was studied and the sensitivity for part-thickness defects was quantified. The maximum mode conversion (S0-A0 mode) occurred for ¾ defect depth and the amplitude of the mode-converted A0 and scattered S0 modes mostly increased linearly as the defect length increased with an almost constant A0/S0 mode scattered amplitude ratio. Similar forward and backward scattering amplitude was found for the mode converted A0 mode. The mode conversion of the S0 to SH0 mode has the highest sensitivity for short defects, but the SH0 mode amplitude only increased slightly for longer defects. Employing the information contained in the mode-converted, scattered guided ultrasonic wave modes could improve the detection sensitivity and localization accuracy of SHM algorithms.

部分厚度裂纹状缺陷处基本导波超声波模式的转换。
导波超声波可沿着薄结构长距离传播,因此可用于高效的结构健康监测(SHM)和无损评估(NDE)。研究了低频导波在部分厚度裂纹状缺陷处的散射(S0 模式)和模式转换(S0 到 A0 和 SH0 波模式),以量化缺陷检测灵敏度。三维(3D)有限元(FE)建模用于预测基本导波模式的模式转换和散射。在实验中,铝板中的压电(PZT)换能器激发了 S0 模式。使用激光测振仪测量平面外位移,以表征模式转换后的 A0 模式,并采用基线减法实现模式和脉冲分离。对于垂直入射的 S0 模式,FE 模型预测与实验结果之间获得了良好的一致性。研究了缺陷深度和长度对散射和模式转换的影响,并量化了部分厚度缺陷的敏感性。最大模式转换(S0-A0 模式)发生在缺陷深度为 ¾ 时,随着缺陷长度的增加,模式转换后的 A0 和散射 S0 模式的振幅大多呈线性增加,A0/S0 模式散射振幅比几乎不变。模式转换后的 A0 模式的正向和反向散射振幅相似。S0 到 SH0 模式的模式转换对短缺陷的灵敏度最高,但 SH0 模式的振幅对较长的缺陷仅略有增加。利用模式转换后的散射导波超声波模式所包含的信息,可以提高 SHM 算法的检测灵敏度和定位精度。
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
Ultrasonics
Ultrasonics 医学-核医学
CiteScore
7.60
自引率
19.00%
发文量
186
审稿时长
3.9 months
期刊介绍: Ultrasonics is the only internationally established journal which covers the entire field of ultrasound research and technology and all its many applications. Ultrasonics contains a variety of sections to keep readers fully informed and up-to-date on the whole spectrum of research and development throughout the world. Ultrasonics publishes papers of exceptional quality and of relevance to both academia and industry. Manuscripts in which ultrasonics is a central issue and not simply an incidental tool or minor issue, are welcomed. As well as top quality original research papers and review articles by world renowned experts, Ultrasonics also regularly features short communications, a calendar of forthcoming events and special issues dedicated to topical subjects.
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