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A membrane-type acoustic metamaterial with adjustable acoustic properties

A membrane-type acoustic metamaterial with adjustable acoustic properties
A membrane-type acoustic metamaterial with adjustable acoustic properties

A new realization of a membrane-type acoustic metamaterial (MAM) with adjustable sound transmission properties is presented. The proposed design distinguishes itself from other realizations by a stacked arrangement of two MAMs which is inflated using pressurized air. The static pressurization leads to large nonlinear deformations and, consequently, geometrical stiffening of the MAMs which is exploited to adjust the eigenmodes and sound transmission loss of the structure. A theoretical analysis of the proposed inflatable MAM design using numerical and analytical models is performed in order to identify two important mechanisms, namely the shifting of the eigenfrequencies and modal residuals due to the pressurization, responsible for the transmission loss adjustment. Analytical formulas are provided for predicting the eigenmode shifting and normal incidence sound transmission loss of inflated single and double MAMs using the concept of effective mass. The investigations are concluded with results from a test sample measurement inside an impedance tube, which confirm the theoretical predictions.

Active, Membrane, Metamaterial, Non-linear, Transmission loss
0022-460X
1-18
Langfeldt, F.
2bf86877-f2cd-4c35-be0f-e38a718a915c
Riecken, J.
6af5eb22-0540-4a58-88ff-3f9b60328f10
Gleine, W.
6b99025f-b44a-46a8-b699-ec25962c7e75
Von Estorff, O.
7b2f7283-9bab-49e4-9ac8-baaa061e769d
Langfeldt, F.
2bf86877-f2cd-4c35-be0f-e38a718a915c
Riecken, J.
6af5eb22-0540-4a58-88ff-3f9b60328f10
Gleine, W.
6b99025f-b44a-46a8-b699-ec25962c7e75
Von Estorff, O.
7b2f7283-9bab-49e4-9ac8-baaa061e769d

Langfeldt, F., Riecken, J., Gleine, W. and Von Estorff, O. (2016) A membrane-type acoustic metamaterial with adjustable acoustic properties. Journal of Sound and Vibration, 373, 1-18. (doi:10.1016/j.jsv.2016.03.025).

Record type: Article

Abstract

A new realization of a membrane-type acoustic metamaterial (MAM) with adjustable sound transmission properties is presented. The proposed design distinguishes itself from other realizations by a stacked arrangement of two MAMs which is inflated using pressurized air. The static pressurization leads to large nonlinear deformations and, consequently, geometrical stiffening of the MAMs which is exploited to adjust the eigenmodes and sound transmission loss of the structure. A theoretical analysis of the proposed inflatable MAM design using numerical and analytical models is performed in order to identify two important mechanisms, namely the shifting of the eigenfrequencies and modal residuals due to the pressurization, responsible for the transmission loss adjustment. Analytical formulas are provided for predicting the eigenmode shifting and normal incidence sound transmission loss of inflated single and double MAMs using the concept of effective mass. The investigations are concluded with results from a test sample measurement inside an impedance tube, which confirm the theoretical predictions.

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More information

Published date: 7 July 2016
Keywords: Active, Membrane, Metamaterial, Non-linear, Transmission loss

Identifiers

Local EPrints ID: 455415
URI: http://eprints.soton.ac.uk/id/eprint/455415
DOI: doi:10.1016/j.jsv.2016.03.025
ISSN: 0022-460X
PURE UUID: 2c3b7614-4408-495d-909e-b52dc147775b
ORCID for F. Langfeldt: ORCID iD orcid.org/0000-0003-2380-2746

Catalogue record

Date deposited: 21 Mar 2022 17:42
Last modified: 18 Mar 2024 04:05

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Contributors

Author: F. Langfeldt ORCID iD
Author: J. Riecken
Author: W. Gleine
Author: O. Von Estorff

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