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Wave transmission through laminated composite double-walled cylindrical shell lined with porous materials 被引量:2

Wave transmission through laminated composite double-walled cylindrical shell lined with porous materials
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摘要 A study on free harmonic wave propagation in a double-walled cylindrical shell, whose walls sandwich a layer of porous materials, is presented within the framework of the classic theory for laminated composite shells. One of the most effective components of the wave propagation through the porous core is estimated with the aid of a flat panel with the same geometrical properties. By considering the effective wave component, the porous layer is modeled as a fluid with equivalent properties. Thus, the model is simplified as a double-walled cylindrical shell trapping the fluid media. Finally, the transmission loss (TL) of the structure is estimated in a broadband frequency, and then the results are compared. A study on free harmonic wave propagation in a double-walled cylindrical shell, whose walls sandwich a layer of porous materials, is presented within the framework of the classic theory for laminated composite shells. One of the most effective components of the wave propagation through the porous core is estimated with the aid of a flat panel with the same geometrical properties. By considering the effective wave component, the porous layer is modeled as a fluid with equivalent properties. Thus, the model is simplified as a double-walled cylindrical shell trapping the fluid media. Finally, the transmission loss (TL) of the structure is estimated in a broadband frequency, and then the results are compared.
作者 K.DANESHJOU H.RAMEZANI R.TALEBITOOTI
机构地区 Department of Mechanical Engineering Department of Automotive Engineering
出处 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2011年第6期701-718,共18页 应用数学和力学(英文版)
关键词 transmission loss porous media cylindrical laminated composite shell transmission loss, porous media, cylindrical laminated composite shell
分类号 O347.41 [理学—固体力学]
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参考文献15

  • 1Bolton, J. S., Shiau, N. M., and Kang, Y. J. Sound transmission through multi-panel structures lined with elastic porous materials. Journal of Sound and Vibration, 191(3-4), 317-347 (1996).
  • 2Biot, M. A. Theory of propagation of elastic waves in a fluid-saturated porous solid - I: low- frequency range. Journal of the Acoustical Society of America, 28(2), 168-191 (1956).
  • 3Lee, J. H. and Kim, J. Simplified method to solve sound transmission through structures lined with elastic porous material. Journal of the Acoustical Society of America, 110(5), 2282-2294 (2001).
  • 4Hundal, B. S. and Kumar, R. Symmetric wave propagation in a fluid-saturated incompressible porous medium. Journal of Sound and Vibration, 288(1-2), 361-373 (2005).
  • 5Koval, L. R. On sound transmission into an orthotropic shell. Journal of Sound and Vibration, 63(1), 51-59 (1979).
  • 6Blaise, A., Lesuer, C., Gotteland, M., and Barbe, M. On sound transmission into an orthotropic infinite shell: comparison with Koval's results nnd understanding of phenomena. Journal of Sound and Vibration, 150(2), 233-243 (1991).
  • 7Tang, Y. Y., Robinson, J. H., and Silcox, R. J. Sound transmission through a cylindrical sandwich shell with honeycomb core. 34th AIAA Aerospace Science Meeting and Exhibit (AIAAo96-0877), Reno, Nevada, USA, 1,877-886 (1996).
  • 8Liu, B., Feng, L., and Nilsson, A. Influence of overpressure on sound transmission through curved panels. Journal of Sound and Vibration, 302(4-5), 760-776 (2007).
  • 9Daneshjou, K., Nouri, A., and Talebitooti, R. Sound transmission through laminated composite cylindrical shells using analytical model. Archive of Applied Mechanics, 77(6), 363-379 (2007).
  • 10Daneshjou, K., Talebitooti, R., and Nouri, A. Analytical model of sound transmission through orthotropic double walled cylindrical shells. CSME Transaction, 32(1), 43-66 (2007).

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Applied Mathematics and Mechanics(English Edition)
2011年 第6期

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