Nonlinear dynamical analysis of a fluid-structure computational model with sloshing and capillarity
Résumé
This paper deals with a computational methodology for analyzing a fluid-structure system taking into account sloshing and capillarity phenomena. The fluid is assumed to be linear acoustic and the structure is assumed to undergo large displacements/deformations, which induce geometrical nonlinearities in the fluid-structure system. An adapted nonlinear reduced-order model is constructed using a modal characterization of each part of the coupled system. A numerical application is considered in order to study the effects of the geometrical nonlinearities on the dynamical forced response of the structural acoustic system.
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conference-2018-ISMA-Leuven-sept-17-19-akkaoui-capiez-soize-ohayon-preprint.pdf (1.77 Mo)
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