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Tunable cylindrical shell as an element in acoustic metamaterial
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Tunable cylindrical shell as an element in acoustic metamaterial

Alexey S. Titovich and Andrew N. Norris
Journal of the Acoustical Society of America, Vol.136(4), pp.1601-1609
Acoustical Society of America
2014
DOI:
https://doi.org/10.7282/T3WS8VXK

Abstract

Elastic moduli Oscillators Aluminium Acoustical properties Acoustic Waves
Elastic cylindrical shells are fitted with an internal mechanism which is optimized so that, in the quasi-static regime, the combined system exhibits prescribed effective acoustic properties. The mechanism consists of a central mass supported by an axisymmetric distribution of elastic stiffeners. By appropriate selection of the mass and stiffness of the internal mechanism, the shells effective acoustic properties (bulk modulus and density) can be tuned as desired. Subsonic flexural waves excited in the shell by the attachment of stiffeners are suppressed by including a sufficiently large number of such stiffeners. Effectiveness of the proposed metamaterial is demonstrated by matching the properties of a thin aluminum shell with a polymer insert to those of water. The scattering cross section in water is nearly zero over a broad range of frequencies at the lower end of the spectrum. By arranging the tuned shells in an array the resulting acoustic metamaterial is capable of steering waves. As an example, a cylindrical-to-plane wave lens is designed by varying the bulk modulus in the array according to the conformal mapping of a unit circle to a square.
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