The problem of the dynamic response of a structural–acoustic system in the mid-frequency range is considered in this work. The structure is a composite panel of arbitrary thickness and anisotropy. The dissipation characteristics for both, the structure and the cavity are taken into account. The system is initially modelled using finite elements, and is subsequently reduced using the Second Order ARnoldi reduction method (SOAR) which does not require inversion of large matrices for every computed frequency, thus resulting in more efficient calculation times. The fully coupled system is modelled using a Statistical Energy Analysis like (SEA-like) approach, and the energetic characteristics for each subsystem are computed and compared to the direct FEM solution. The error of the reduced model calculations for each frequency band is presented and the limits of the reliability of the reduction are explored. Different strategies concerning the reduction process parameters are investigated in order to optimize the accuracy with respect to time efficiency. The loading applied to the model comprises typical random distributed excitations, such as a 'rain-on-the-roof’ excitation, a diffused sound field and a Turbulent Boundary Layer (TBL) excitation.


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    Title :

    Predicting the broadband vibroacoustic response of systems subject to aeroacoustic loads by a Krylov subspace reduction


    Contributors:
    Chronopoulos, D. (author) / Ichchou, M. (author) / Troclet, B. (author) / Bareille, O. (author)

    Published in:

    Applied Acoustics ; 74 , 12 ; 1394-1405


    Publication date :

    2013


    Size :

    12 Seiten, 35 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English





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