The accuracy of damage localization, especially the accurate determination of the time arrival difference, is important in the field of acoustic emission (AE) source localization. In this paper, we propose a new approach to localize an AE source with the dispersive A(0) mode. For this approach, we analyzed the cross correlation of AE signals with a reference database and determined the time lag of A(0) mode. The technique is carried out in a two stage computational process. First, AE signals are used to construct the reference database and compensate for the dispersion of waves based on the time reversal principle. Second, the time arrival difference of the A(0) mode is determined by the cross correlation of AE signals with the reference signals using the first threshold-crossing technique. A localization algorithm is carried out based on the triangulation technique. The proposed approach is conducted on a steel plate with three AE sensors coupling on the surface. Pencil-lead breaks are adopted to simulate AE sources. Results indicated that eight verification points were successfully localized with the maximum and minimum relative errors of 0.98% and 0.58%, respectively. Thus, this paper shows an optional technique to localize AE sources with the A(0) mode, which is of significant importance.

• 出版日期2018-3
• 单位南昌航空大学; 北京工业大学