Multimodal Local Resonators for Low-Frequency Amelioration of Acoustic Black Holes

Jing Zhao; Zhixin Ma; Yiyang Hu; Jiacheng Zeng; Yuxin Xu; Jie Deng; Nansha Gao

doi:10.3390/ma16134579

Multimodal Local Resonators for Low-Frequency Amelioration of Acoustic Black Holes

Jing Zhao, Zhixin Ma, Yiyang Hu, Jiacheng Zeng, Yuxin Xu, Jie Deng, Nansha Gao

School of Marine Science and Technology

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Acoustic black holes (ABHs) are effective at suppressing vibrations at high frequencies, but their performance at low frequencies is limited. This paper aims to improve the low-frequency performance of ABH plates through the design of a metamaterial acoustic black hole (MMABH) plate. The MMABH plate consists of a double-layer ABH plate with a set of periodic local resonators installed between the layers. The resonators are tuned to the low-frequency peak points of the ABH plate, which are identified using finite element analysis. To dissipate vibration energy, the beams of the resonators are covered with damping layers. A modal analysis of the MMABH plate is performed, confirming its damping effect over a wide frequency band, especially at low frequencies.

Original language	English
Article number	4579
Journal	Materials
Volume	16
Issue number	13
DOIs	https://doi.org/10.3390/ma16134579
State	Published - Jul 2023

Keywords

acoustic black holes
acoustic metamaterials
low frequency
multimodal resonators
vibration reduction

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10.3390/ma16134579

Cite this

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title = "Multimodal Local Resonators for Low-Frequency Amelioration of Acoustic Black Holes",

abstract = "Acoustic black holes (ABHs) are effective at suppressing vibrations at high frequencies, but their performance at low frequencies is limited. This paper aims to improve the low-frequency performance of ABH plates through the design of a metamaterial acoustic black hole (MMABH) plate. The MMABH plate consists of a double-layer ABH plate with a set of periodic local resonators installed between the layers. The resonators are tuned to the low-frequency peak points of the ABH plate, which are identified using finite element analysis. To dissipate vibration energy, the beams of the resonators are covered with damping layers. A modal analysis of the MMABH plate is performed, confirming its damping effect over a wide frequency band, especially at low frequencies.",

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T1 - Multimodal Local Resonators for Low-Frequency Amelioration of Acoustic Black Holes

AU - Zhao, Jing

AU - Ma, Zhixin

AU - Hu, Yiyang

AU - Zeng, Jiacheng

AU - Xu, Yuxin

AU - Deng, Jie

AU - Gao, Nansha

PY - 2023/7

Y1 - 2023/7

N2 - Acoustic black holes (ABHs) are effective at suppressing vibrations at high frequencies, but their performance at low frequencies is limited. This paper aims to improve the low-frequency performance of ABH plates through the design of a metamaterial acoustic black hole (MMABH) plate. The MMABH plate consists of a double-layer ABH plate with a set of periodic local resonators installed between the layers. The resonators are tuned to the low-frequency peak points of the ABH plate, which are identified using finite element analysis. To dissipate vibration energy, the beams of the resonators are covered with damping layers. A modal analysis of the MMABH plate is performed, confirming its damping effect over a wide frequency band, especially at low frequencies.

AB - Acoustic black holes (ABHs) are effective at suppressing vibrations at high frequencies, but their performance at low frequencies is limited. This paper aims to improve the low-frequency performance of ABH plates through the design of a metamaterial acoustic black hole (MMABH) plate. The MMABH plate consists of a double-layer ABH plate with a set of periodic local resonators installed between the layers. The resonators are tuned to the low-frequency peak points of the ABH plate, which are identified using finite element analysis. To dissipate vibration energy, the beams of the resonators are covered with damping layers. A modal analysis of the MMABH plate is performed, confirming its damping effect over a wide frequency band, especially at low frequencies.

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KW - acoustic metamaterials

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KW - multimodal resonators

KW - vibration reduction

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Multimodal Local Resonators for Low-Frequency Amelioration of Acoustic Black Holes

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Keywords

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