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Title: A convergence result and numerical study for a nonlinear piezoelectric material in a frictional contact process with a conductive foundation (English)
Author: Benkhira, El-Hassan
Author: Fakhar, Rachid
Author: Mandyly, Youssef
Language: English
Journal: Applications of Mathematics
ISSN: 0862-7940 (print)
ISSN: 1572-9109 (online)
Volume: 66
Issue: 1
Year: 2021
Pages: 87-113
Summary lang: English
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Category: math
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Summary: We consider two static problems which describe the contact between a piezoelectric body and an obstacle, the so-called foundation. The constitutive relation of the material is assumed to be electro-elastic and involves the nonlinear elastic constitutive Hencky's law. In the first problem, the contact is assumed to be frictionless, and the foundation is nonconductive, while in the second it is supposed to be frictional, and the foundation is electrically conductive. The contact is modeled with the normal compliance condition with finite penetration, the regularized Coulomb law, and the regularized electrical conductivity condition. The existence and uniqueness results are provided using the theory of variational inequalities and Schauder's fixed-point theorem. We also prove that the solution of the latter problem converges towards that of the former as the friction and electrical conductivity coefficients converge towards zero. The numerical solutions of the problems are achieved by using a successive iteration technique; their convergence is also established. The numerical treatment of the contact condition is realized using an Augmented Lagrangian type formulation that leads us to use Uzawa type algorithms. Numerical experiments are performed to show that the numerical results are consistent with the theoretical analysis. (English)
Keyword: piezoelectric body
Keyword: nonlinear elastic constitutive Hencky's law
Keyword: normal compliance contact condition
Keyword: Coulomb's friction law
Keyword: iteration method
Keyword: augmented Lagrangian
Keyword: Uzawa block relaxation
MSC: 35J87
MSC: 37M05
MSC: 47J25
MSC: 49J40
MSC: 65N55
MSC: 74C05
MSC: 74S05
idZBL: 07332691
idMR: MR4218604
DOI: 10.21136/AM.2020.0195-19
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Date available: 2021-01-28T09:59:53Z
Last updated: 2023-03-06
Stable URL: http://hdl.handle.net/10338.dmlcz/148512
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