宽带
水下
声学
声音(地理)
吸收(声学)
材料科学
物理
计算机科学
电信
地质学
海洋学
作者
Han Zou,Lili Song,Yihe Zhang,Mangong Zhang,Wei Yu,Xinliang Wang,Xingchuan Xia,Hong Chen,Xiangdong Zhang,Aiguo Zhao
标识
DOI:10.1016/j.ijmecsci.2024.109137
摘要
Underwater absorptive metamaterials are rapidly developed duo local resonance mechanisms, but they still suffer from the disadvantages of poor hydrostatic resistance. The poor acoustic absorption performance at high hydrostatic pressure mainly attributes to the decreased damping coefficient and increased modulus of substrate at high hydrostatic pressure. Acoustic metastructures with helical oscillators are proposed and optimized with simulating annealing algorithm, where the helical oscillators are beneficial for easing the stress in the polymer substrate and resulting in good acoustic absorption abilities. Four acoustic absorptive metastructures without any oscillators (pure polymer substrate), with cylindrical oscillators, with helical oscillators, with both cylindrical and helical oscillators are proposed and experimentally verified in this study. All three metastructures with oscillators demonstrate excellent acoustic absorption coefficient with the absence of the hydrostatic pressure, while the metastructures with helical oscillators exhibit better hydrostatic pressure resistance compared with the metastructures with cylindrical oscillators. Besides, the coupling of helical oscillators and helical oscillators enhanced the acoustic performance furtherly. It is revealed that the acoustic metamaterials with a combination of cylindrical oscillator and helical oscillator exhibit superior performance under hydrostatic pressure up to 3MPa in the frequency range of 0.5kHz∼10kHz compared with the others, demonstrating a new avenue for underwater acoustic metamaterials application.
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