Vibro-acoustics of porous materials - waveguide modeling approach

Radoslav Darula, Sergey V. Sorokin

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

Abstract

The porous material is considered as a compound multi-layered waveguide (i.e. a fluid layer surrounded with elastic layers) with traction free boundary conditions. The attenuation of the vibro-acoustic waves in such a material is assessed. This approach is compared with a conventional Biot's model and a qualitative agreement in phase velocities as well as damping estimates is found. The waveguide model predicts four waves, out of which two are attenuated when the viscous fluid is considered (while the elastic layer being ideally lossless). One of these waves is found to be significantly controlled by the fluid viscosity, while for the other the effect of viscosity was observed for very small frequencies. The Biot's model predicts only one of these attenuated waves, where the latter one is not predicted. Thus the proposed waveguide approach provide additional information about the wave propagation in porous materials.
OriginalsprogEngelsk
TitelProceedings of the XIII International Conference on Motion and Vibration Control, XII International Conference on Recent Advances in Structural Dynamics
RedaktørerN. S. Ferguson, E. Rustighi
ForlagInstitute of Sound and Vibration Research, University of Southampton
Publikationsdato2016
ISBN (Trykt)9780854329939
StatusUdgivet - 2016
BegivenhedMoViC 2016: Motion and Vibration Control, RASD 2016: Recent Advances in Structural Dynamics - Southampton, Storbritannien
Varighed: 3 jul. 20166 jul. 2016
Konferencens nummer: 13th, 12th
https://www.ocs.soton.ac.uk/index.php/MOVICRASD/2016

Konference

KonferenceMoViC 2016: Motion and Vibration Control, RASD 2016: Recent Advances in Structural Dynamics
Nummer13th, 12th
Land/OmrådeStorbritannien
BySouthampton
Periode03/07/201606/07/2016
Internetadresse

Emneord

  • wave propagation
  • porous
  • fluid-structure
  • analytical

Citationsformater