Lamb波成像方法中信号激励优化研究

2022 16th Symposium on Piezoelectricity, Acoustic Waves, and Device Applications (SPAWDA) Pub Date : 2022-10-11 DOI:10.1109/SPAWDA56268.2022.10045898

Bingqian Li, Z. Wang, Xingyi Liu, Z. Xie, Huiru Jia, Yue Fei

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引用次数: 0

摘要

板结构易受外界载荷冲击、化学腐蚀等影响而产生裂纹、剥落、疲劳等损伤。针对超声兰姆波在板结构传播过程中存在多模态和频散效应，损伤信息难以识别的问题。采用频波数(f-k)域滤波方法。通过研究各向同性材料板在f-k域次模态成像方法中的数值模拟模型，研究了400kHz正弦调制五峰波信号与250 ~ 550khz带宽线性Chirp信号驱动性能的比较。结果表明，啁啾信号频段两种模式的损伤反射能量均强于正弦调制的五峰波信号，并通过波场和时域信号的对比验证了所提信号用于多损伤检测的可行性。

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Research on Signal Excitation Optimization in Lamb Wave Imaging Method

The plate structure is susceptible to damages such as cracks, spalling, and fatigue caused by external load impact, chemical corrosion and other effects. Aiming at the problem that ultrasonic Lamb waves have multi-modality and frequency dispersion effects during the propagation of plate structures, and the damage information is difficult to identify. The frequency-wavenumber(f-k) domain filtering method was adopted. By studying the numerical simulation model of the isotropic material plate in the f-k domain sub-modal imaging method, the comparison of driving performance based on 400kHz sine modulated five-peak wave signal and 250-550kHz bandwidth linear Chirp signal is studied. The results show that the damage reflection energy of the two modes in the Chirp signal band is stronger than the sinusoidal modulated five-peak wave signal, and the feasibility of the proposed signal for multi-damage detection is verified by comparing the wave field and time domain signals.

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来源期刊

2022 16th Symposium on Piezoelectricity, Acoustic Waves, and Device Applications (SPAWDA)

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