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Communication Dans Un Congrès Année : 2016

Vibroacoustic modeling of submerged stiffened cylindrical shells with internal structures under random excitations

Laurent Maxit
Ygäal Renou
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Christian Audoly
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Résumé

The vibroacoustic behavior of a structure excited by a partially space-correlated random pressure fields such as turbulent boundary layers or internal diffuse fields is of great interest for aeronautical or naval applications. Many works have been carried out for structures such as plates or simple cylinders whereas little attention has been paid on more complex cases. The aim of this paper is to study this problem for a ribbed cylindrical shell coupled to internal structures. The proposed modeling is based on the combination of two methods developed recently by the authors: the wavenumber-point (k, M) reciprocity technique and the Condensed Transfer Function (CTF) method. The first one estimates the sensitivity functions at point M of the system from its vibratory velocity field induced by a point excitation at M. This velocity field is estimated with the second method. The CTF method is a substructuring approach which consists in coupling a semi-analytical model of a submerged cylindrical shell with Finite Element models of axisymmetric (ribs, bulkheads) and non-axisymmetric (floor partitions, engine foundations) internal frames. A numerical example of a submerged stiffened cylindrical shell excited by random pressure fields will be given and the influence of the internal frames will be discussed.
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Dates et versions

hal-01468957 , version 1 (16-02-2017)

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  • HAL Id : hal-01468957 , version 1

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Valentin Meyer, Laurent Maxit, Ygäal Renou, Christian Audoly. Vibroacoustic modeling of submerged stiffened cylindrical shells with internal structures under random excitations. Inter-Noise Hamburg 2016, Aug 2016, Hambourg, Germany. ⟨hal-01468957⟩
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