相控阵
传感器
声学
兰姆波
激发
光学
带宽(计算)
频率响应
导波测试
栅栏
指向性
材料科学
振幅
物理
表面波
计算机科学
电信
工程类
天线(收音机)
电气工程
量子力学
作者
Konstantinos Tzaferis,Morteza Tabatabaeipour,Gordon Dobie,David Lines,Charles N. MacLeod
出处
期刊:Ultrasonics
[Elsevier]
日期:2023-04-01
卷期号:130: 106917-106917
被引量:1
标识
DOI:10.1016/j.ultras.2022.106917
摘要
Lamb wave excitation at high-frequency-thickness products offers a potential solution for high-resolution guided wave testing. The method is attractive for crack imaging and corrosion mapping, especially in hidden locations where direct access is limited. However, multiple modes may propagate, complicating signal interpretation, which is undesirable. In this work, a systematic approach is presented, in an effort to determine the influence of the key parameters related to single higher order Lamb wave mode excitation using a conventional linear array transducer. Specifically, a linear time delay law is used to enhance the targeted mode, while the array's length, pitch and apodisation profile remain to be optimally selected. First, an analytical solution is derived based on modal analysis. This provides a natural decomposition of the amplitude of a guided wave mode into the product of the response of a single element and the excitation spectrum. Then, a key observation is made, associating the excitation spectrum to the directivity function for bulk wave phased array steering. This allows the application of well-established phased array analysis tools to guided wave phased array excitation. In light of this fact, minimisation of the spectrum's bandwidth, elimination of the grating lobes and derivation of an apodisation profile are performed, to enhance the purity of the targeted mode. Finally, experiments conducted on an aluminium plate verify the above theoretical results. The Full Matrix is acquired, and all signals are reconstructed synthetically.
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