第 41 卷 第 1 期                                                                       Vol. 41, No. 1
             2022 年 1 月                          Journal of Applied Acoustics                   January, 2022

             ⋄ 研究报告 ⋄



              板状结构Lamb波频散补偿与聚焦接收成像检测                                                                     ∗



                                         阚婷婷      1,2  阎守国      1,2†  张碧星     1,2


                                              (1  中国科学院声学研究所      北京   100190)
                                                (2  中国科学院大学     北京   100049)

                摘要：对板状结构中 Lamb 波的频散和多模现象进行了理论分析，采用有限元仿真方法获取了 Lamb 波与缺
                陷作用后的回波信号，对信号进行聚焦接收处理，即在一定距离范围内利用导波频散特性对各个模式信号进
                行频散补偿，提取补偿后信号的幅值，结果表明当所得信号幅值最大时，所对应的补偿距离等于缺陷与换能器
                之间的实际距离。利用这一结论，提出了以寻找频散补偿后信号的峰值为核心的导波聚焦接收成像算法，在三
                维模型板中验证了该成像算法的有效性，与基于延时叠加的导波成像算法相比，可以在减少传感器数量的情
                况下获取高精度缺陷图像。该算法巧妙地利用了 Lamb 波的频散和模式转换特性对缺陷进行检测与成像，表
                明了聚焦接收成像法对板状结构缺陷检测的可行性。
                关键词：Lamb 波；频散补偿；聚焦接收；缺陷检测
                中图法分类号: O426.9          文献标识码: A          文章编号: 1000-310X(2022)01-0096-07
                DOI: 10.11684/j.issn.1000-310X.2022.01.011


              Lamb wave dispersion compensation and focused receiving imaging detection of

                                                    plate structure


                                   KAN Tingting 1,2  YAN Shouguo  1,2  ZHANG Bixing 1,2

                               (1  Institute of Acoustics, Chinese Academy of Sciences, Beijing 100190, China)
                                   (2  University of Chinese Academy of Sciences, Beijing 100049, China)

                 Abstract: The dispersion and multi-mode phenomena of Lamb waves in plate structures are analyzed theoret-
                 ically, and the echo signals of Lamb waves acting on defects are obtained by finite element simulation method.
                 To focus of the received signal, that is, the dispersion compensation of each mode signal is performed within a
                 certain distance range using the dispersion characteristics of the guided wave, and the amplitude of the com-
                 pensated signal is extracted. The results show that the compensation distance is equal to the actual distance
                 between the defect and the transducer when the signal amplitude is the maximum. Based on this conclusion, a
                 guided wave focusing imaging algorithm based on searching the peak value of the dispersion compensated signal
                 is proposed. The effectiveness of this algorithm is verified in a 3D model plate. Compared with the guided wave
                 imaging algorithm based on delay superposition, it can obtain high-precision defect images with less number of
                 sensors. The proposed algorithm cleverly utilizes the dispersion and mode conversion characteristics of Lamb
                 waves to detect and image defects, which shows the feasibility of the dispersion compensation imaging method
                 for the defect detection of plate structures.
                 Keywords: Lamb wave; Dispersion compensation; Focus reception; Defect detection


             2021-02-09 收稿; 2021-04-09 定稿
             国家自然科学基金项目 (11774377), 国家重点研发计划项目 (2018YFF01012801)
             ∗
             作者简介: 阚婷婷 (1996– ), 女, 河南信阳人, 硕士研究生, 研究方向: 超声传播与成像。
             † 通信作者 E-mail: yanshouguo@mail.ioa.ac.cn