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Autores principales: Bresciani, Marco, Friedrich, Manuel, Mora-Corral, Carlos
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2402.12870
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author Bresciani, Marco
Friedrich, Manuel
Mora-Corral, Carlos
author_facet Bresciani, Marco
Friedrich, Manuel
Mora-Corral, Carlos
contents We investigate the existence of minimizers of variational models with Eulerian-Lagrangian formulations. We consider energy functionals depending on the deformation of a body, defined on its reference configuration, and an Eulerian map defined on the unknown deformed configuration in the actual space. Our existence theory moves beyond the purely elastic setting and accounts for material failure by addressing free-discontinuity problems where both deformations and Eulerian fields are allowed to jump. To do so, we build upon the work of Henao and Mora-Corral regarding the variational modeling of cavitation and fracture in nonlinear elasticity. Two main settings are considered by modeling deformations as Sobolev and SBV-maps, respectively. The regularity of Eulerian maps is specified in each of these two settings according to the geometric and topological properties of the deformed configuration. We present some applications to specific models of liquid crystals, phase transitions, and ferromagnetic elastomers. Effectiveness and limitations of the theory are illustrated by means of explicit examples.
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spellingShingle Variational models with Eulerian-Lagrangian formulation allowing for material failure
Bresciani, Marco
Friedrich, Manuel
Mora-Corral, Carlos
Analysis of PDEs
We investigate the existence of minimizers of variational models with Eulerian-Lagrangian formulations. We consider energy functionals depending on the deformation of a body, defined on its reference configuration, and an Eulerian map defined on the unknown deformed configuration in the actual space. Our existence theory moves beyond the purely elastic setting and accounts for material failure by addressing free-discontinuity problems where both deformations and Eulerian fields are allowed to jump. To do so, we build upon the work of Henao and Mora-Corral regarding the variational modeling of cavitation and fracture in nonlinear elasticity. Two main settings are considered by modeling deformations as Sobolev and SBV-maps, respectively. The regularity of Eulerian maps is specified in each of these two settings according to the geometric and topological properties of the deformed configuration. We present some applications to specific models of liquid crystals, phase transitions, and ferromagnetic elastomers. Effectiveness and limitations of the theory are illustrated by means of explicit examples.
title Variational models with Eulerian-Lagrangian formulation allowing for material failure
topic Analysis of PDEs
url https://arxiv.org/abs/2402.12870