Strain sensitivity enhancement of ultrasonic waves in plates using phase filter

2019 IEEE International Ultrasonics Symposium (IUS) Pub Date : 2019-10-01 DOI:10.1109/ULTSYM.2019.8925997

Lucas M. Martinho, A. Kubrusly, N. Pérez, A. Braga, Jean Pierre von der Weid

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引用次数: 1

Abstract

Ultrasonic guided waves can be used to measure mechanical strain in plates due to the stress-induced velocity change. Strain monitoring is usually performed by measuring the time-of-flight shift. However, interpretation of results can be difficult due to wave mixing, mainly when several dispersive modes propagate, or in the presence of reflections. In these cases, the time-reversal focusing technique can be used to monitor the strain level, by observing the peak of the focused time-reversal signal, which changes proportionally to the strain level. However, not all components of the spectrum contribute with the same sensitivity to strain changes. In this paper, we developed a signal filtering procedure based on the phase of the Fourier spectrum that increases the time-reversal strain sensitivity. The time-reversal process is modified by using a new signal as reference which is synthesized relying on prior knowledge of the impulse response at some non-null strain level. The technique was evaluated with different pairs of transducers in an aluminium plate, effectively producing more strain-sensitive signals. However, high strain-sensitive signal presents poor energy concentration which, in turn, can be difficult to detect. The technique can be adapted to provide strain-robust signals.

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用相位滤波器增强超声波在平板中的应变灵敏度

超声导波可以用来测量由于应力引起的速度变化引起的板内机械应变。应变监测通常是通过测量飞行时间位移来进行的。然而，由于波的混合，主要是在几个色散模式传播或存在反射时，结果的解释可能很困难。在这种情况下，可以使用时间反转聚焦技术来监测应变水平，通过观察聚焦后的时间反转信号的峰值，该峰值与应变水平成比例变化。然而，并非所有谱的分量对应变变化的敏感性都相同。在本文中，我们开发了一种基于傅里叶谱相位的信号滤波方法，提高了时间反转应变灵敏度。利用非零应变水平下脉冲响应的先验知识合成的新信号作为参考，对时间反转过程进行了改进。在铝板上对不同的传感器进行了评估，有效地产生了更多的应变敏感信号。然而，高应变敏感信号表现出较差的能量集中，这反过来又难以检测。该技术可用于提供应变鲁棒信号。

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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2019 IEEE International Ultrasonics Symposium (IUS)

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