Finite element modelling of hybrid active−passive vibration damping of multilayer piezoelectric sandwich beams - part I: Formulation - Laboratoire de mécanique des structures et des systèmes couplés
Article Dans Une Revue International Journal for Numerical Methods in Engineering Année : 2001

Finite element modelling of hybrid active−passive vibration damping of multilayer piezoelectric sandwich beams - part I: Formulation

Résumé

This work, in two parts, proposes, in this first part, an electromechanically coupled finite element model to handle active-passive damped multilayer sandwich beams, consisting of a viscoelastic core sandwiched between layered piezoelectric faces. The latter are modelled using the classical laminate theory, whereas the face/core/face system is modelled using classical three-layers sandwich theory, assuming Euler-Bernoulli thin faces and a Timoshenko relatively thick core. The frequency-dependence of the viscoelastic material is handled through the anelastic displacement fields (ADF) model. To make the control system feasible, a modal reduction is applied to the resulting ADF augmented system. Validation of the approach developed in this part is presented in Part 2 of the paper together with the hybrid damping performance analysis of a cantilever beam. Copyright
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Dates et versions

hal-03179654 , version 1 (01-09-2023)

Identifiants

Citer

Marcelo A. Trindade, Ayech Benjeddou, Roger Ohayon. Finite element modelling of hybrid active−passive vibration damping of multilayer piezoelectric sandwich beams - part I: Formulation. International Journal for Numerical Methods in Engineering, 2001, 51 (7), pp.835-854. ⟨10.1002/nme.189⟩. ⟨hal-03179654⟩

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