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Modelization and numerical approximation of piezoelectric thin shells: Part I: The continuous problems

✍ Scribed by Michel Bernadou; Christophe Haenel

Publisher
Elsevier Science
Year
2003
Tongue
English
Weight
436 KB
Volume
192
Category
Article
ISSN
0045-7825

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✦ Synopsis

This paper comprises three parts mainly directed to the obtention of a two-dimensional formulation (Part I), to the analysis of an approximation by finite element methods and to some numerical experiments (Part II) and to the use of piezoelectric components in order to realize active structures (Part III).

In this first part, the general three-dimensional equations of piezoelectricity are recalled; they use a representation of the three-dimensional body by a system of three curvilinear coordinates. An existence and uniqueness result is proved. Next, under appropriate assumptions on the mechanical and on the electrical behaviour of the shell during the deformation, the integration of the three-dimensional equations through the thickness leads to a set of two-dimensional equations which are themselves simplified by using an energy criterion. Finally, it is proved that these reduced twodimensional equations have one and only one solution.

πŸ“œ SIMILAR VOLUMES

Modelization and numerical approximation
Modelization and numerical approximation of piezoelectric thin shells: Part II: Approximation by finite element methods and numerical experiments
✍ Michel Bernadou; Christophe Haenel πŸ“‚ Article πŸ“… 2003 πŸ› Elsevier Science 🌐 English βš– 1001 KB

A two-dimensional modelization of piezoelectric thin shells has been developed in the first part of this work. Three equivalent variational formulations have been considered: β€’ an homogeneous one (with respect to the potential) the bilinear form of which is positive definite but not symmetric; β€’ t

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## Abstract ## SUMMARY As a first model for an electromagnetic wave guide, we consider Maxwell's system in a three‐ dimensional axisymmetric domain provided with appropriate boundary conditions on different parts of the boundary. We check the well‐posedness of the corresponding variational problem