A thin plate electrostrictive finite element. Numerical results and experimental validations - Laboratoire de mécanique des structures et des systèmes couplés
Communication Dans Un Congrès Année : 2002

A thin plate electrostrictive finite element. Numerical results and experimental validations

Résumé

Piezoelectric plates have been widely used for the vibration reduction and noise control of structures. Due to power forces considerations, electrostrictive patches present a growing interest. It is thus the purpose of the present research to contribute to modeling aspects of thin structures integrating such actuators. Several three-dimensional finite elements have been elaborated to simulate these structures behavior. Using the constitutive relationships analyzed by the first author in a previous paper, an original two-dimensional plate theory have been presented at SPIE'01 with a focus on modeling aspects and corresponding appropriate variational formulations. Let us recall that the element here developed has the particular property of reducing the initial electromechanical problem to a purely mechanical problem based on a modified elastic constitutive law. The electrical unknowns are then explicitly derived from the mechanical displacements. This theory thus proved that there is no need to develop new plate finite elements but that one could use classical elements for laminated plates. The previous paper, moreover underlined that using current as actuators driving input leads in simplifications of the behavior modeling. The purpose of this presentation is then to validate the current driven and voltage driven plate models, previously established, through numerical finite element results and experimental correlations.
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Dates et versions

hal-03179401 , version 1 (24-03-2021)

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  • HAL Id : hal-03179401 , version 1

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Frédéric Pablo, Daniel Osmont, Roger Ohayon. A thin plate electrostrictive finite element. Numerical results and experimental validations. SPIE Ninth Annual Symposium on Smart Structures and Materials: Modeling, Signal Processing and Control Sessions, Mar 2002, San Diego, California, United States. ⟨hal-03179401⟩
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