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Published November 2018 | Published + Submitted
Journal Article Open

Architected Lattices for Simultaneous Broadband Attenuation of Airborne Sound and Mechanical Vibrations in All Directions

Abstract

Phononic crystals and acoustic metamaterials are architected lattices designed to control the propagation of acoustic or elastic waves. In these materials, the dispersion properties and the energy transfer are controlled by selecting the geometry of the lattices and their constitutive material properties. Most designs, however, only affect one mode of energy propagation, transmitted either as acoustic airborne sound or as elastic structural vibrations. Here, we present a design methodology to attenuate both acoustic and elastic waves simultaneously in all polarizations. We experimentally realize a three-dimensional load-bearing architected lattice, composed of a single material, that responds in a broadband frequency range in all directions and polarizations for airborne sound and elastic vibrations simultaneously.

Additional Information

© 2018 American Physical Society. Received 31 August 2018; published 27 November 2018.

Attached Files

Published - PhysRevApplied.10.054060.pdf

Submitted - 1809.01252.pdf

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1809.01252.pdf
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Created:
August 19, 2023
Modified:
October 19, 2023