Research of Depth Evaluation for the Simulated Surface Crack Using Rayleigh Waves

2020 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2020-11-20 DOI:10.1109/FENDT50467.2020.9337543

Peng Deng, C. He, Y. Lyu, Di-Ping Yuan, Yi Xiao

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Abstract

This paper provides some simulated surface cracks whose shape, size and extension mode are very close to the real cracks to study the validity of the method of using surface waves to evaluate the crack depth. The reflection and transmission coefficients of Rayleigh waves at cracks with different depths were obtained by using finite element method (FEM). Experiments were performed at a specimen with 8 simulated surface cracks and three couples of EMAT were employed. It shows that the measured transmission coefficients are virtually consistent with the FEM results, while the measured reflection coefficients are obviously smaller than the FEM results, and the difference is positively correlated with the frequency of Rayleigh waves. As a consequence, the depths of the simulated cracks were evaluated by comparing the measured transmission coefficients with the FEM obtained reference curves. At last, a crack depth quantitative detection method based on arrival time difference between low-frequency transmitted wave and delay transmitted wave is proposed.

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基于瑞利波的模拟表面裂纹深度评价研究

本文提供了一些形状、尺寸和扩展方式与真实裂纹非常接近的模拟表面裂纹，以研究用表面波评价裂纹深度方法的有效性。采用有限元法计算了瑞利波在不同深度裂缝处的反射系数和透射系数。实验在8个模拟表面裂纹的试样上进行，采用了3对EMAT。结果表明:透射系数的测量值与有限元计算结果基本一致，反射系数的测量值明显小于有限元计算结果，且两者的差异与瑞利波频率呈正相关。因此，通过将测量的透射系数与FEM获得的参考曲线进行比较来评估模拟裂纹的深度。最后，提出了一种基于低频透射波与延迟透射波到达时间差的裂缝深度定量检测方法。

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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2020 IEEE Far East NDT New Technology & Application Forum (FENDT)

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