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Low-frequency broadband absorption of semi-active composite anechoic coating with subwavelength piezoelectric arrays in hydrostatic environments

Zhifu Zhang, Shande Li, Jiaxuan Wang, Qibai Huang

2021Results in Physics20 citationsDOIOpen Access PDF

Abstract

Considering the influence of hydrostatic pressure on geometric parameters of a lining, this paper first proposes a complete global four-terminal acoustic theoretical prediction method based on phenomenological theory for a semi-active composite coating with subwavelength piezoelectric arrays in deep-sea environment, aiming at exploring the energy dissipation mechanisms and broadening the low-frequency sound-absorbing bandwidth. The Neo-Hookean material model is incorporated into the phenomenological theory to analyze the finite deformation of rubber layers under hydrostatic load. Then, the global acoustic model is established by combining the effective medium method, shunt damping technique, and wave propagation theory in layered media. Moreover, the degraded validations are developed by FE simulation and hydroacoustic impedance tube experiment, and the influences of submergence depth and shunt circuit on the absorption characteristics are explored theoretically. It is expected to break the lower limit frequency of low-frequency sound-absorbing from 500 Hz to 200 Hz, and to expand the upper limit frequency thanks to the multi-modal resonant energy consumption mechanism of distributed circuits.

Topics & Concepts

Anechoic chamberAcousticsPiezoelectricityMaterials scienceDissipationBroadbandHydrostatic equilibriumLow frequencyStopbandElectrical impedanceFrequency bandFinite element methodHydrostatic pressureBandwidth (computing)PhysicsMechanicsOpticsResonatorOptoelectronicsComputer scienceTelecommunicationsAstronomyThermodynamicsQuantum mechanicsAcoustic Wave Phenomena ResearchFluid Dynamics and Vibration AnalysisWind and Air Flow Studies
Low-frequency broadband absorption of semi-active composite anechoic coating with subwavelength piezoelectric arrays in hydrostatic environments | Litcius