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Article Dans Une Revue Thin-Walled Structures Année : 2010

Out-of-plane behaviour of partially composite or sandwich beams by exact and Finite Element Methods

Résumé

The out-of-plane vibrations of composite beams with interlayer slip or three-layer sandwich beams are theoretically and numerically investigated in this paper for general boundary conditions. The governing dynamics equations are derived by applying the Hamilton's principle. A Finite Element Resolution is presented for general boundary conditions, and compared to the exact solution based on the resolution of a tenth-order differential equation. The Finite Element Method may exhibit slip locking phenomenon for very stiff connection, a phenomenon widely investigated in the past for the in-plane behaviour of partially composite beams or sandwich beams. This slip locking, analogous to the shear locking for Timoshenko beams, can be faced with some relevant interpolation shape functions of the same order for each kinematics variables, namely the deflections and the torsion angle. The numerical results are presented for layered wood beams and laminated glass beams, with particular emphasis on the rate of convergence of the natural frequencies with respect to the number of Finite Elements. It is theoretically and numerically shown that the elastic spectra of the symmetrical composite beam are composed of two independent spectrums. One spectrum is independent of the connection parameter and can be studied using the solution of the non-composite action, whereas the second spectrum can be obtained from the resolution of a third-order polynomial equation using the Cardano's method. We show the phenomenon of cut-on frequency for this out-of-plane problem, a phenomenon already noticed for the in-plane Timoshenko beam vibrations. The exact method associated to a 10 degrees-of-freedom shape function can be formally associated with the dynamics stiffness method. The numerical and the exact approaches lead to the same dimensionless spectra, up to four digits. (C) 2010 Elsevier Ltd. All rights reserved.

Dates et versions

hal-01068953 , version 1 (26-09-2014)

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Noel Challamel, Fabrice Bernard, Charles Casandjian. Out-of-plane behaviour of partially composite or sandwich beams by exact and Finite Element Methods. Thin-Walled Structures, 2010, 48 (8), pp.561-580. ⟨10.1016/j.tws.2010.03.005⟩. ⟨hal-01068953⟩
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