Performance and stability analysis of active elastic metamaterials with a tunable double negative response
Performance and stability analysis of active elastic metamaterials with a tunable double negative response
Metamaterials can possess material parameters which do not exist in conventional materials. Consequently metamaterials provide a novel way to control wave propagation within a structure. These characteristics are achieved by designing a material with a particular sub-wavelength structure which leads to negative constitutive parameters in the long wavelength limit. For elastic materials these parameters are the density and modulus. In a previous study, a theoretical design for a novel active elastic metamaterial (AEM) was proposed. In this material control forces are applied to an array of resonant units in order to achieve a simultaneously negative effective density and modulus over a prescribed frequency band. This design potentially overcomes some of the restrictions imposed by previous passive designs. In this paper a new design of AEM is proposed which compensates for actuator dynamics and provides a basis for practical implementation. This design is shown to have a stable response with a tunable double negative frequency band.
Pope, S.A.
b0b4819d-9c21-4bae-8961-6c91796b78a5
Laalej, H.
fff74ce0-a812-482f-a631-8b757882c26a
Daley, Stephen
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6
December 2012
Pope, S.A.
b0b4819d-9c21-4bae-8961-6c91796b78a5
Laalej, H.
fff74ce0-a812-482f-a631-8b757882c26a
Daley, Stephen
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6
Pope, S.A., Laalej, H. and Daley, Stephen
(2012)
Performance and stability analysis of active elastic metamaterials with a tunable double negative response.
Smart Materials and Structures, 21 (12).
(doi:10.1088/0964-1726/21/12/125021).
Abstract
Metamaterials can possess material parameters which do not exist in conventional materials. Consequently metamaterials provide a novel way to control wave propagation within a structure. These characteristics are achieved by designing a material with a particular sub-wavelength structure which leads to negative constitutive parameters in the long wavelength limit. For elastic materials these parameters are the density and modulus. In a previous study, a theoretical design for a novel active elastic metamaterial (AEM) was proposed. In this material control forces are applied to an array of resonant units in order to achieve a simultaneously negative effective density and modulus over a prescribed frequency band. This design potentially overcomes some of the restrictions imposed by previous passive designs. In this paper a new design of AEM is proposed which compensates for actuator dynamics and provides a basis for practical implementation. This design is shown to have a stable response with a tunable double negative frequency band.
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e-pub ahead of print date: 26 November 2012
Published date: December 2012
Organisations:
Signal Processing & Control Grp
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Local EPrints ID: 373687
URI: http://eprints.soton.ac.uk/id/eprint/373687
PURE UUID: 8e28797d-c7bf-4556-ba1a-aa0eb25e9266
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Date deposited: 28 Jan 2015 16:52
Last modified: 14 Mar 2024 18:55
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Author:
S.A. Pope
Author:
H. Laalej
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