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所属单位：航空学院

发表刊物：MECHANICAL SYSTEMS AND SIGNAL PROCESSING

关键字：Acoustic black holes Energy trapping Reflection coefficient Laser excitation technique Damping layer

摘要：Acoustic Black Holes (ABHs), as a new type of passive structure for vibration damping enhancement and noise attenuation, have been drawing increasing attentions of many researchers. Due to the difficulty in manufacturing the sharp edges required by the ABH structures, it is important to understand the wave propagation and attenuation process in the presence of damping layers in non-ideal ABHs with a truncated edge. In this paper, an analytical expression of the wave reflection coefficient in a modified one-dimensional ABH is derived and a time-domain experimental method based on a laser excitation technique is used to visualize the wave propagation. In the experimental studies, the flexural waves in the ABH were excited by a scanning pulse laser and measured by a Laser Doppler Vibrometer (LDV). The incident wave and reflected wave were separated from the measured original wave field and the decrease of the wave velocity in the ABH was exhibited. The reflection coefficient was calculated from the ratio of the amplitude of the reflected wave to that of the incident wave for different ABH parameters and different thicknesses of the damping layer. The measured reflection coefficients were used to identify the unknown coefficients in the theoretical formula. The results confirm that there exists an optimal thickness for the damping layer, which leads to the minimum wave reflection. Based on the laser-induced visualization technique and various signal processing and feature extraction methods, the entire process of the wave propagation in a non ideal one-dimensional ABH structure can be visualized and scrutinized. (C) 2017 Elsevier Ltd. All rights reserved.

ISSN号：0888-3270

是否译文：否

发表时间：2018-05-01

合写作者：Luo, Jing,裘进浩,Cheng, Li

通讯作者：裘进浩,Cheng, Li,季宏丽