Underwater sound transmission through arrays of disk cavities in a soft elastic medium.The Journal of the Acoustical Society of America
AbstractScattering from a cavity in a soft elastic medium, such as silicone rubber, resembles scattering from an underwater bubble in that low-frequency monopole resonance is obtainable in both cases. Arrays of cavities can therefore be used to reduce underwater sound transmission using thin layers and low void fractions. This article examines the role of cavity shape by microfabricating arrays of disk-shaped air cavities into single and multiple layers of polydimethylsiloxane. Comparison is made with the case of equivalent volume cylinders which approximate spheres. Measurements of ultrasonic underwater sound transmission are compared with finite element modeling predictions. The disks provide a deeper transmission minimum at a lower frequency owing to the drum-type breathing resonance. The resonance of a single disk cavity in an unbounded medium is also calculated and compared with a derived estimate of the natural frequency of the drum mode. Variation of transmission is determined as a function of disk tilt angle, lattice constant, and layer thickness. A modeled transmission loss of 18 dB can be obtained at a wavelength about 20 times the three-layer thickness, and thinner results (wavelength/thickness ∼ 240) are possible for the same loss with a single layer depending on allowable hydrostatic pressure.
Citation InformationDavid C. Calvo, Abel L. Thangawng, Christopher N. Layman, Riccardo Casalini, et al.. "Underwater sound transmission through arrays of disk cavities in a soft elastic medium." The Journal of the Acoustical Society of America Vol. 138 Iss. 4 (2015) p. 2537 - 2547 ISSN: 1520-8524
Available at: http://works.bepress.com/shadi-othman/10/