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Underwater metastructure with broadband sound absorption capability in low-frequency range above 20 Hz

Ruihao Zhang, Yifan Song, Hong Hou, Nansha Gao

2020Modern Physics Letters B21 citationsDOI

Abstract

We present an underwater metastructure with excellent sound absorption effect below 50 Hz. The periodic metastructure unit consists of a conical cavity, rubber matrix, and two metal disks. FEM results show that, in the range of 20–300 Hz, the proposed metastructure demonstrates the excellent sound absorption within 279 Hz bandwidth when the reference absorption coefficient is considered to be 0.5. Displacement vibration diagrams illustrate the addition of two layers of metal disks break the propagation law of acoustic wave in rubber matrix. An anti-phase motion of the rubber matrix emerges due to the presence of the metal disks, then consumes the energy of incident acoustic waves. The geometric parameters of lattice constant [Formula: see text], the thickness [Formula: see text], and the height [Formula: see text] of the upper metal disk are positively correlated with the sound absorption coefficient, while the upper radius [Formula: see text] and the height [Formula: see text] of the conical cavity are negatively correlated with the sound absorption coefficient. The novel design presented in this study could have the potential applications in the realization of an acoustic underwater anechoic layer.

Topics & Concepts

Materials scienceAttenuation coefficientAcousticsAbsorption (acoustics)PhysicsBeat (acoustics)Molar absorptivityOpticsAcoustic Wave Phenomena ResearchCellular and Composite StructuresVibration Control and Rheological Fluids
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