Journal of Applied Physics
 2022
DOI: 10.1063/5.0102410
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An innovative wide and low-frequency bandgap metastructure for vibration isolation

A. Annessi
1
,
Valentina Zega
2
,
Paolo Chiariotti
3
et al.

Abstract: Engineering the architecture of materials is a new and very promising approach to obtain vibration isolation properties. The biggest challenge for lattice structures exhibiting vibration isolation properties is the trade-off between compactness and wide and low-frequency bandgaps, i.e., frequency ranges where the propagation of elastic or acoustic waves is prohibited. Here, we, both numerically and experimentally, propose and demonstrate a new design concept for compact metamaterials exhibiting extraordinary p… Show more

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Cited by 2 publications
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References 44 publications
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Static and Dynamic Characterization of a Vibration Decoupling Element Based on a Metamaterial Structure

Annessi,
Zega,
Chiariotti
et al. 2023
Conference Proceedings of the Society for Experimental Mechanics Series
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0
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Static and Dynamic Characterization of a Vibration Decoupling Element Based on a Metamaterial Structure

Annessi,
Zega,
Chiariotti
et al. 2023
Conference Proceedings of the Society for Experimental Mechanics Series
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0
0
0
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Pushing the limits of complete omnidirectional bandgaps in 2D nonsymmorphic single-phase phononic crystals

Nadejde,
Thomas,
Galich
2023
Applied Physics Letters
1
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0
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