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Experimental validation of the band-gap and dispersive bulk modulus behaviour of locally resonant acoustic metamaterials

Experimental validation of the band-gap and dispersive bulk modulus behaviour of locally resonant acoustic metamaterials
Experimental validation of the band-gap and dispersive bulk modulus behaviour of locally resonant acoustic metamaterials
Over the last decade there has been significant interest in the design and production of acoustic metamaterials with physical qualities not seen in naturally occurring media. Progress in this area has been stimulated by the desire to create materials that exhibit novel behaviour such as negative refraction due to negative material parameters, and band gaps in the frequency response of the material. An acoustic metamaterial is presented that consists of an acoustically transparent mesh with an array of split hollow spheres. Split hollow spheres are analogous to the split ring resonators found in many electromagnetic metamaterials and act as Helmholtz resonators providing a resonant band gap at low frequencies where achieving a Bragg gap would be impractical, and providing a dispersive effective bulk modulus that can become negative. Since an eventual goal of the work is to produce such materials on a micro-scale, the metamaterial is designed for, and produced using, 3D printing techniques (additive layer manufacturing). Results are presented for material comparing theory and experiment, and methods for increasing the bandwidth of the behaviour in question are proposed, including a mixed resonator solution and the integration of active components into the material.
Reynolds, Matthew
0627295a-25d1-40b0-aba3-e1a3fe82c80e
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Daley, Stephen
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6
Reynolds, Matthew
0627295a-25d1-40b0-aba3-e1a3fe82c80e
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Daley, Stephen
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6

Reynolds, Matthew, Gao, Yan and Daley, Stephen (2013) Experimental validation of the band-gap and dispersive bulk modulus behaviour of locally resonant acoustic metamaterials. 21st International Congress on Acoustics, Montreal, Canada. 02 - 07 Jun 2013. (doi:10.1121/1.4799697).

Record type: Conference or Workshop Item (Paper)

Abstract

Over the last decade there has been significant interest in the design and production of acoustic metamaterials with physical qualities not seen in naturally occurring media. Progress in this area has been stimulated by the desire to create materials that exhibit novel behaviour such as negative refraction due to negative material parameters, and band gaps in the frequency response of the material. An acoustic metamaterial is presented that consists of an acoustically transparent mesh with an array of split hollow spheres. Split hollow spheres are analogous to the split ring resonators found in many electromagnetic metamaterials and act as Helmholtz resonators providing a resonant band gap at low frequencies where achieving a Bragg gap would be impractical, and providing a dispersive effective bulk modulus that can become negative. Since an eventual goal of the work is to produce such materials on a micro-scale, the metamaterial is designed for, and produced using, 3D printing techniques (additive layer manufacturing). Results are presented for material comparing theory and experiment, and methods for increasing the bandwidth of the behaviour in question are proposed, including a mixed resonator solution and the integration of active components into the material.

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Reynolds_ICA2013_postprint_version.pdf - Accepted Manuscript
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More information

Published date: 5 June 2013
Venue - Dates: 21st International Congress on Acoustics, Montreal, Canada, 2013-06-02 - 2013-06-07
Related URLs:
Organisations: Signal Processing & Control Grp

Identifiers

Local EPrints ID: 353207
URI: http://eprints.soton.ac.uk/id/eprint/353207
DOI: doi:10.1121/1.4799697
PURE UUID: 989718e9-c478-47e9-b8c4-c48a89806fe8

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Date deposited: 03 Jun 2013 13:31
Last modified: 14 Mar 2024 14:02

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Contributors

Author: Matthew Reynolds
Author: Yan Gao
Author: Stephen Daley

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