Vibro-acoustic behaviour of laminated double glazing enclosing a viscothermal fluid cavity |
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Authors: | Ali Akrout Lotfi Hammami |
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Institution: | a Mechanics Modelling and Production Research Unit, Mechanical Engineering Department, National School of Engineers of Sfax, BP. W. 3038 Sfax, Tunisia b Roberval Laboratory of Mechanical Engineering, University of Technology of Compiegne, BP 20529-60205 Compiegne, cedex, France |
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Abstract: | This paper presents a new numerical model to investigate the vibro-acoustic behaviour of two laminated glass plates enclosing a thin viscothermal fluid cavity. The aim of this work is to develop an original five layer (two skins plies, two adhesive films and a core ply) laminated plate finite element by mixing Kirchhoff and Mindlin plate’s theory. The formulation is based on the theory that accounts for the transverse shear in the adhesive films and in the core. The acousto-elastic model is established in dimensionless appropriate form including the effects of viscosity and thermal conductivity of fluid and by taking into account the fluid-structure interaction. The discretization of the energy functional by finite element method gives after minimisation a symmetrical coupled matrix system in which the acoustic matrices are frequency dependent. Therefore, an iterative procedure is derived to determine the eigenmodes of the coupled system. The modal approach is adopted to determine the vibro-acoustic system’s response. Then, the validation of the new laminate finite element model is achieved by comparing the sandwich plate results against data obtained from literature. Subsequently, predicted responses, such as the vibration transmissibility and the transmission loss of the coupled system, for a given laminated double glazing under an imposed homogeneous pressure are presented and discussed. Numerical results show the importance of both lamination and viscothermal fluid effects on double glazing vibro-acoustic behaviour. |
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Keywords: | Laminated glass Viscothermal fluid layer Modal recombination Eigenmodes Vibro-acoustic behaviour |
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