Microstructural designs of plate-type elastic metamaterial and their potential applications: a review

Microstructural designs of plate-type elastic metamaterial and their potential applications: a review

Elastic metamaterials are of growing interest due to their unique effective properties and wave manipulation abilities. Unlike phononic crystals based on the Bragg scattering mechanism, elastic metamaterials (EMMs) are based on the locally resonant (LR) mechanism and can fully control elastic waves...

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Bibliographic Details
Main Authors: R. Zhu, X.N. Liu, G.K. Hu, F.G. Yuan, G.L. Huang
Format: Article
Language:English
Published: Taylor & Francis Group 2015-01-01
Series:International Journal of Smart and Nano Materials
Subjects:
metamaterial
composite
structural dynamics
nondestructive evaluation
structural health monitoring
Online Access:http://dx.doi.org/10.1080/19475411.2015.1025249
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spelling doaj-d6868b3af8184dbab4263a55edb1b5062020-11-24T21:00:21ZengTaylor & Francis GroupInternational Journal of Smart and Nano Materials1947-54111947-542X2015-01-0161144010.1080/19475411.2015.10252491025249Microstructural designs of plate-type elastic metamaterial and their potential applications: a reviewR. Zhu0X.N. Liu1G.K. Hu2F.G. Yuan3G.L. Huang4North Carolina State UniversityBeijing Institute of TechnologyBeijing Institute of TechnologyNorth Carolina State UniversityUniversity of MissouriElastic metamaterials are of growing interest due to their unique effective properties and wave manipulation abilities. Unlike phononic crystals based on the Bragg scattering mechanism, elastic metamaterials (EMMs) are based on the locally resonant (LR) mechanism and can fully control elastic waves at a subwavelength scale. Microstructural designs of EMMs in plate-like structures have attracted a great deal of attention. In this paper, the recent advances in the microstructural designs of LR-based EMM plates are reviewed. Their potential applications in the fields of low frequency guided wave attenuation, wave manipulation and energy trapping at a subwavelength scale, and structural health monitoring are discussed.http://dx.doi.org/10.1080/19475411.2015.1025249metamaterialcompositestructural dynamicsnondestructive evaluationstructural health monitoring
collection DOAJ
language English
format Article
sources DOAJ
author R. Zhu
X.N. Liu
G.K. Hu
F.G. Yuan
G.L. Huang
spellingShingle R. Zhu
X.N. Liu
G.K. Hu
F.G. Yuan
G.L. Huang
Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
International Journal of Smart and Nano Materials
metamaterial
composite
structural dynamics
nondestructive evaluation
structural health monitoring
author_facet R. Zhu
X.N. Liu
G.K. Hu
F.G. Yuan
G.L. Huang
author_sort R. Zhu
title Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
title_short Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
title_full Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
title_fullStr Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
title_full_unstemmed Microstructural designs of plate-type elastic metamaterial and their potential applications: a review
title_sort microstructural designs of plate-type elastic metamaterial and their potential applications: a review
publisher Taylor & Francis Group
series International Journal of Smart and Nano Materials
issn 1947-5411
1947-542X
publishDate 2015-01-01
description Elastic metamaterials are of growing interest due to their unique effective properties and wave manipulation abilities. Unlike phononic crystals based on the Bragg scattering mechanism, elastic metamaterials (EMMs) are based on the locally resonant (LR) mechanism and can fully control elastic waves at a subwavelength scale. Microstructural designs of EMMs in plate-like structures have attracted a great deal of attention. In this paper, the recent advances in the microstructural designs of LR-based EMM plates are reviewed. Their potential applications in the fields of low frequency guided wave attenuation, wave manipulation and energy trapping at a subwavelength scale, and structural health monitoring are discussed.
topic metamaterial
composite
structural dynamics
nondestructive evaluation
structural health monitoring
url http://dx.doi.org/10.1080/19475411.2015.1025249
work_keys_str_mv AT rzhu microstructuraldesignsofplatetypeelasticmetamaterialandtheirpotentialapplicationsareview
AT xnliu microstructuraldesignsofplatetypeelasticmetamaterialandtheirpotentialapplicationsareview
AT gkhu microstructuraldesignsofplatetypeelasticmetamaterialandtheirpotentialapplicationsareview
AT fgyuan microstructuraldesignsofplatetypeelasticmetamaterialandtheirpotentialapplicationsareview
AT glhuang microstructuraldesignsofplatetypeelasticmetamaterialandtheirpotentialapplicationsareview
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