Coupling Effect of Local Resonance in Acoustic Metamaterials
Traditional acoustic metamaterials face issues including narrow noise reduction frequency range,high cost,and difficulty in implementation.To address these problems,a Helmholtz resonant cavity acoustic metamate-rial structure with a flexible thin film is proposed.Starting from the phenomenon of local resonance coupling effects,mathematical models of the Helmholtz resonant cavity and the flexible thin film are derived.These models are simulated and analyzed using COMSOL Multiphysics software.The results show that the structure produces two local resonance peaks.To achieve control over the noise reduction frequency band of the acoustic metamaterial,liquid is injected into the thin film.Experimental results show that when the injection volume increases from 0 to 35 mL,the resonance frequency of the thin film shifts from 612 Hz to 446 Hz,resulting in a displacement of 166 Hz.The designed local resonance acoustic metamaterial effectively controls low-frequency noise within the spec-ified frequency band,providing a novel approach for the design of acoustic metamaterials.
local resonanceacoustic metamaterialsnoiseHelmholtz resonant cavity
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