Mathematical and numerical analysis of an obstacle problem for elastic piezoelectric beams
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Mathematical and numerical analysis of an obstacle problem for elastic piezoelectric beamsDate
2018Citation
Rodríguez-Arós Á, Cao-Rial M.T. Mathematical and numerical analysis of an obstacle problem for elastic piezoelectric beams. Mathematics and Mechanics of Solids. 2018;23(3):262-278. doi:10.1177/1081286517717580
Abstract
[Abstract] We consider a mathematical model that describes the equilibrium of an electro-elastic beam in contact with an electrically conductive foundation (an obstacle). The model is constructed by coupling the beam equation with a system of equations describing one-dimensional piezoelectricity. We state the unique weak solvability of the model as well as the continuous dependence of the weak solution with respect to the data. We also introduce a discrete scheme for which we perform numerical analysis, including convergence and error estimate results. Finally, we present numerical simulations in the study of a test problem.
Keywords
Beam
Elasticity
Piezoelectricity
Obstacle
Contact
Normal compliance
Signorini
Finite element method
Elasticity
Piezoelectricity
Obstacle
Contact
Normal compliance
Signorini
Finite element method
Description
This is an ACCEPTED VERSION of the following published document:
Rodríguez-Arós Á, Cao-Rial M.T. Mathematical and numerical analysis of an obstacle problem for elastic piezoelectric beams. Mathematics and Mechanics of Solids. 2018; 23(3):262-278. Copyright © 2018, Sage Publications. doi:10.1177/1081286517717580.
This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0/
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