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On the coupling of resonance and Bragg scattering effects in three-dimensional locally resonant sonic materials

On the coupling of resonance and Bragg scattering effects in three-dimensional locally resonant sonic materials
On the coupling of resonance and Bragg scattering effects in three-dimensional locally resonant sonic materials
Three-dimensional (3D) locally resonant sonic materials (LRSMs) are studied theoretically for purpose of optimising their sub-wavelength performance by coupling resonance and Bragg scattering effects together. Through the study of effective sound speeds of LRSMs, we find that the starting frequency of Bragg scattering can be shifted to sub-wavelength region by softening coats of resonators when the matrix is a low shear-velocity medium. A similar result can be achieved by compressing the lattice constant. By using a layer-multiple-scattering method, we investigate the complex band structure and the transmission spectrum of an LRSM whose Bragg gap is already close to the resonance gap in frequency. The wave fields of the composite simulated by COMSOL are further analysed at several typical frequencies. The result shows that the approaching of two kinds of gaps not only broadens the bandwidth of the resonance gap, but also increases the depth of the Bragg gap since the interaction between resonant modes and scattering waves are enhanced. By varying the shear velocity of coats, we obtain a coupled gap, which exhibits a broad transmission gap in the sub-wavelength region. When the loss of coats is considered, the coupled gap can not only maintain a good sound blocking performance, but also perform an efficient absorption in the low frequency region.
locally resonant sonic material, local resonator, effective sound speed, bragg scattering, coupling of band gaps
0041-624X
1332-1343
Yuan, Bo
f54c46d9-a95e-4426-8267-ef38510dcc3e
Humphrey, Victor F.
23c9bd0c-7870-428f-b0dd-5ff158d22590
Wen, Jihong
0664d8ff-656c-4ea6-ab61-65ed14b338ca
Wen, Xisen
92a77666-ad73-4237-98c7-8113da0b0a6e
Yuan, Bo
f54c46d9-a95e-4426-8267-ef38510dcc3e
Humphrey, Victor F.
23c9bd0c-7870-428f-b0dd-5ff158d22590
Wen, Jihong
0664d8ff-656c-4ea6-ab61-65ed14b338ca
Wen, Xisen
92a77666-ad73-4237-98c7-8113da0b0a6e

Yuan, Bo, Humphrey, Victor F., Wen, Jihong and Wen, Xisen (2013) On the coupling of resonance and Bragg scattering effects in three-dimensional locally resonant sonic materials. Ultrasonics, 53 (7), 1332-1343. (doi:10.1016/j.ultras.2013.03.019).

Record type: Article

Abstract

Three-dimensional (3D) locally resonant sonic materials (LRSMs) are studied theoretically for purpose of optimising their sub-wavelength performance by coupling resonance and Bragg scattering effects together. Through the study of effective sound speeds of LRSMs, we find that the starting frequency of Bragg scattering can be shifted to sub-wavelength region by softening coats of resonators when the matrix is a low shear-velocity medium. A similar result can be achieved by compressing the lattice constant. By using a layer-multiple-scattering method, we investigate the complex band structure and the transmission spectrum of an LRSM whose Bragg gap is already close to the resonance gap in frequency. The wave fields of the composite simulated by COMSOL are further analysed at several typical frequencies. The result shows that the approaching of two kinds of gaps not only broadens the bandwidth of the resonance gap, but also increases the depth of the Bragg gap since the interaction between resonant modes and scattering waves are enhanced. By varying the shear velocity of coats, we obtain a coupled gap, which exhibits a broad transmission gap in the sub-wavelength region. When the loss of coats is considered, the coupled gap can not only maintain a good sound blocking performance, but also perform an efficient absorption in the low frequency region.

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More information

Accepted/In Press date: 27 March 2013
e-pub ahead of print date: 8 April 2013
Published date: September 2013
Keywords: locally resonant sonic material, local resonator, effective sound speed, bragg scattering, coupling of band gaps
Organisations: Acoustics Group

Identifiers

Local EPrints ID: 375769
URI: http://eprints.soton.ac.uk/id/eprint/375769
DOI: doi:10.1016/j.ultras.2013.03.019
ISSN: 0041-624X
PURE UUID: f1e1458c-e7b4-4fb1-b112-47b90d2e2023
ORCID for Victor F. Humphrey: ORCID iD orcid.org/0000-0002-3580-5373

Catalogue record

Date deposited: 14 Apr 2015 08:46
Last modified: 15 Mar 2024 03:17

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Contributors

Author: Bo Yuan
Author: Victor F. Humphrey ORCID iD
Author: Jihong Wen
Author: Xisen Wen

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