The direct and inverse problems of an air-saturated poroelastic cylinder submitted to acoustic radiation

Abstract : A wave-fluid saturated poroelastic structure interaction model based on the modified Biot theory (MBT) and plane-wave decomposition using orthogonal cylindrical functions is developed. The model is employed to recover from real data acquired in an anechoic chamber, the poromechanical properties of a soft cellular melamine cylinder submitted to an audible acoustic radiation. The inverse problem of acoustic diffraction is solved by constructing the objective functional given by the total square of the difference between predictions from the MBT interaction model and diffracted field data from experiment. The faculty of retrieval of the intrinsic poromechanical parameters from the diffracted acoustic fields, indicate that a wave initially propagating in a light fluid (air) medium, is able to carry in the absence of mechanical excitation of the specimen, information on the macroscopic mechanical properties which depend on the microstructural and intrinsic properties of the solid phase.
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Article dans une revue
AIP Advances, American Institute of Physics- AIP Publishing LLC, 2011, 1 (3), 14 p. <10.1063/1.3647619>
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https://hal.archives-ouvertes.fr/hal-00626638
Contributeur : Erick Ogam <>
Soumis le : lundi 26 septembre 2011 - 16:09:46
Dernière modification le : mardi 5 avril 2016 - 01:02:16

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Erick Ogam, Zine El Abiddine Fellah. The direct and inverse problems of an air-saturated poroelastic cylinder submitted to acoustic radiation. AIP Advances, American Institute of Physics- AIP Publishing LLC, 2011, 1 (3), 14 p. <10.1063/1.3647619>. <hal-00626638>

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