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Article type: Research Article
Authors: Mofakhami, M.R. | Toudeshky, H. Hosseini | Hashemi, Sh. Hosseini
Affiliations: Aerospace Engineering Department, Amirkabir University of Technology (Tehran Polytechnic), 424 Hafez Avenue, Tehran 158754413, Iran | School of Mechanical Engineering, Iran University of Science and Technology Narmak, Tehran, Iran
Note: [] Corresponding author. Tel.: +98 21 6454 3224; Fax: +98 21 6640 4885; E-mail: Hosseini@aut.ac.ir
Abstract: In this paper sound transmission through the multilayered viscoelastic air filled cylinders subjected to the incident acoustic wave is studied using the technique of separation of variables on the basis of linear three dimensional theory of elasticity. The effect of interior acoustic medium on the mode maps (frequency vs geometry) and noise reduction is investigated. The effects of internal absorption and external moving medium on noise reduction are also evaluated. The dynamic viscoelastic properties of the structure are rigorously taken into account with a power law technique that models the viscoelastic damping of the cylinder. A parametric study is also performed for the two layered infinite cylinders to obtain the effect of viscoelastic layer characteristics such as thickness, material type and frequency dependency of viscoelastic properties on the noise reduction. It is shown that using constant and frequency dependent viscoelastic material with high loss factor leads to the uniform noise reduction in the frequency domain. It is also shown that the noise reduction obtained for constant viscoelastic material property is subjected to some errors in the low frequency range with respect to those obtained for the frequency dependent viscoelastic material. Noise reduction analyses are also performed for the infinite cylinder subjected to the periodic incident wave with uniform and piecewise form.
Keywords: Noise reduction, infinite cylinder, viscoelastic material, plane wave
Journal: Shock and Vibration, vol. 15, no. 5, pp. 551-572, 2008
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