拟肖尔特波在单表面载水板缺陷检测中的应用

IF 0.5 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING

Journal of The Japan Institute of Metals Pub Date : 2017-01-01 DOI:10.2320/JINSTMET.J2016058

T. Hayashi, R. Fujishima

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引用次数: 1

摘要

超声导波实现对薄板的非︲破坏性检测。然而，大能量泄漏和衰减等问题往往困扰着导波检测储罐和充满流体的管道。本研究通过应用准︲Scholte (QS)波沿流体︲板界面传播而不经历泄漏衰减的方法，对加载水︲的平板铝合金板进行了非︲破坏性检测。通过超声波入射和顶部水︲自由表面的检测，确认了QS波在底部表面有水的平板中产生并传播。波形的两个︲维傅里叶变换图像显示了从缺陷反射的QS波以及正向入射的QS波。可视化结果通过实验证实——通过使用激光多普勒振动仪测量水中的波——QS波沿着板表面传播，而散射波是由缺陷产生的。

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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Defect Detection in a Plate Loaded with Water on a Single Surface using Quasi-Scholte Wave

Ultrasonic guided waves achieve non ︲ destructive inspection of thin plates. However, issues such as large energy leakage and attenuation often plague guided wave inspection of storage tanks and pipes ﬁlled with ﬂuid. This study experimentally investigated the non ︲ destructive testing of a water ︲ loaded flat aluminum alloy plate through the application of a quasi ︲ Scholte （ QS ） wave that propagated along the fluid ︲ plate interface without experiencing attenuation due to leakage. A QS wave was confirmed as having been generated and propagated in a plate loaded with water on the bottom surface using ultrasonic incidence and detection at the top water ︲ free surface. Two ︲ dimensional Fourier transform images of the waveforms revealed reflection of the QS wave from a defect as well as a forward incident QS wave. The visualization results experimentally conﬁrmed — via measurements of waves in water using a laser Doppler vibrometer — that QS waves propagated along a plate surface, while scattered waves were generated by defects.

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