Lightweight stiffness-dominated acoustic metamaterial barrier for low-frequency sound

Nagami Tadashi; Miura Susumu; Miyakawa TakayukiSawada HiroyukiMinami KentaIchikawa AtsushiHoribe NorifumiEnomoto ToshioFang Nicholas X.

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Lightweight stiffness-dominated acoustic metamaterial barrier for low-frequency sound

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In this study, we experimentally demonstrate a class of lightweight acoustic metamaterial barriers that block low-frequency sound. The acoustic metamaterial barrier is composed of a thin rubber membrane coated over a stiff honeycomb plate. Our findings, combined with high-fidelity finite element simulations, demonstrate that the sound insulation performance of the acoustic metamaterial surpasses the mass law in three distinct frequency ranges: (a) the stiffness law dominates insulation up to 140 Hz, (b) degeneracy and destructive superposition of high-order natural modes dominate within the frequency range of 300-500 Hz, and (c) destructive interference between high-order resonance and membrane resonance dominates in the frequency range of 800-1200 Hz. Notably, our study highlights the potential of high-order shear vibration of the periodic structure for the resonant bending waves of the honeycomb cell that coincide with the wavelengths of longitudinal sound waves in air, thereby offering new design guidelines for lightweight acoustic metamaterial barriers. This study reports for the first time the coincidence of high-order and membrane resonance modes within the honeycomb cell by employing an accurate finite element model and experimental validation.

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《Journal of Applied Physics》 |2023年第5期|054501-1-054501-7|共7页
作者
Nagami Tadashi; Miura Susumu; Miyakawa TakayukiSawada HiroyukiMinami KentaIchikawa AtsushiHoribe NorifumiEnomoto ToshioFang Nicholas X.;
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作者单位

Nissan Motor Co Ltd;

MIT;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种英语
中图分类应用物理学;
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Lightweight stiffness-dominated acoustic metamaterial barrier for low-frequency sound

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