瑞利波
材料科学
瑞利散射
声学
瑞利长度
锆钛酸铅
光学
超声波传感器
表面波
压电
激光多普勒测振仪
复合材料
物理
激光器
铁电性
光电子学
波长
电介质
分布反馈激光器
激光束
作者
Xiaotian Li,Voon‐Kean Wong,Yasmin Mohamed Yousry,David Boon Kiang Lim,Percis Teena Christopher Subhodayam,Kui Yao,Liuyang Feng,Xudong Qian,Zheng Fan
出处
期刊:Sensors
[Multidisciplinary Digital Publishing Institute]
日期:2023-02-28
卷期号:23 (5): 2665-2665
被引量:5
摘要
This paper presents a method for measuring surface cracks based on the analysis of Rayleigh waves in the frequency domain. The Rayleigh waves were detected by a Rayleigh wave receiver array made of a piezoelectric polyvinylidene fluoride (PVDF) film and enhanced by a delay-and-sum algorithm. This method employs the determined reflection factors of Rayleigh waves scattered at a surface fatigue crack to calculate the crack depth. In the frequency domain, the inverse scattering problem is solved by comparing the reflection factor of the Rayleigh waves between the measured and the theoretical curves. The experimental measurement results quantitatively matched the simulated surface crack depths. The advantages of using the low-profile Rayleigh wave receiver array made of a PVDF film for detecting the incident and reflected Rayleigh waves were analyzed in contrast with those of a Rayleigh wave receiver using a laser vibrometer and a conventional lead zirconate titanate (PZT) array. It was found that the Rayleigh waves propagating across the Rayleigh wave receiver array made of the PVDF film had a lower attenuation rate of 0.15 dB/mm compared to that of 0.30 dB/mm of the PZT array. Multiple Rayleigh wave receiver arrays made of the PVDF film were applied for monitoring surface fatigue crack initiation and propagation at welded joints under cyclic mechanical loading. Cracks with a depth range of 0.36-0.94 mm were successfully monitored.
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