Amplification of Lamb-wave detection via fiber Bragg gratings using ultrasonic horns

Chia-Fu Wang, J. Wee, K. Peters
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引用次数: 2

Abstract

Fiber Bragg Grating (FBG) sensors are often applied as Lamb wave detectors for structural health monitoring systems. Analyzing the measured signal for the identification of structural damage requires a high signal-to-noise ratio because of the low amplitude Lamb waves. This paper applies a two-dimensional ultrasonic horn between the structure and a remotely bonded FBG sensor to increase the amplitudes of the measured signal. Experimentally we test a variety of ultrasonic geometries and demonstrate a 100% increase in the measured ultrasonic signal amplitude using a metallic ultrasonic horn with step-down geometry. A bonding procedure for the combined ultrasonic horn and optical fiber is also developed that produces repeatable signal measurements. For some horn geometries, an additional vibration signal at the Lamb wave excitation frequency is observed in the measurements. Laser Doppler vibrometry measurements and finite element analysis demonstrate that the signal is due to the natural vibration of the horn. The experimental results demonstrate that using an aluminum ultrasonic horn to focus wave is an excellent method to increase the sensitivity of the FBG to the small amplitude Lamb wave, provided the horn vibration characteristics are taken account in the design of the measurement system.
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利用超声喇叭放大光纤光栅的兰姆波探测
光纤布拉格光栅(FBG)传感器常被用作结构健康监测系统的兰姆波检测器。由于兰姆波的幅值较低,分析测量信号进行结构损伤识别需要较高的信噪比。本文在结构和远程键合的光纤光栅传感器之间使用二维超声变幅器来提高测量信号的幅值。实验中,我们测试了各种超声几何形状,并证明使用具有降压几何形状的金属超声喇叭,测量的超声信号幅度增加了100%。还开发了一种结合超声变幅器和光纤的方法,可以产生可重复的信号测量。对于某些喇叭几何形状,在测量中观察到兰姆波激励频率的附加振动信号。激光多普勒振动测量和有限元分析表明,信号是由于喇叭的自然振动。实验结果表明,在设计测量系统时考虑到超声波喇叭的振动特性,利用铝制超声波喇叭聚焦波是提高光纤光栅对小幅兰姆波灵敏度的一种很好的方法。
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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来源期刊
CiteScore
3.80
自引率
9.10%
发文量
25
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