Exploració per autor "Muñoz Rivera, Jaime E."
Ara es mostren els items 1-10 de 10
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Analyticity in porous-thermoelasticity with microtemperatures
Pamplona, Paulo Xavier; Muñoz Rivera, Jaime E.; Quintanilla de Latorre, Ramón (2012-10-15)
Article
Accés restringit per política de l'editorialIn this note we study the analyticity of the solutions to the one-dimensional porouselasticity problem with temperatures and microtemperatures when viscoelasticity and porous viscosity effects are also present. We show ... -
Decay of solutions for a mixture of thermoelastic one dimensional solids
Muñoz Rivera, Jaime E.; Naso, Maria-Grazia; Quintanilla de Latorre, Ramón (2013-08-01)
Article
Accés restringit per política de l'editorialWe study a PDE system modeling thermomechanical deformations for a mixture of thermoelastic solids. In particular we investigate the asymptotic behavior of the solutions. First, we identify conditions on the constitutive ... -
Decay of solutions for a mixture of thermoelastic solids with different temperatures
Muñoz Rivera, Jaime E.; Naso, Maria Grazia; Quintanilla de Latorre, Ramón (2016-02-06)
Article
Accés obertWe study a system modeling thermomechanical deformations for mixtures of thermoelastic solids with two different temperatures, that is, when each component of the mixture has its own temperature. In particular, we investigate ... -
Decay of solutions in nonsimple thermoelastic bars
Fernández-Sare, Hugo; Muñoz Rivera, Jaime E.; Quintanilla de Latorre, Ramón (2010-11-01)
Article
Accés restringit per política de l'editorialIn this paper we investigate the asymptotic behavior of the semigroup associated to the solutions of the initial boundary value problem for a one-dimensional nonsimple thermoelastic solids. We show that the semigroup is ... -
Exponential decay in a thermoelastic mixture of solids
Alves, M.S.; Muñoz Rivera, Jaime E.; Quintanilla de Latorre, Ramón (Elsevier, 2009-04)
Article
Accés restringit per política de l'editorialIn this paper, we investigate the asymptotic behaviour of solutions to the initial boundary value problem for a one-dimensional mixture of thermoelastic solids. Our main result is to establish a necessary and sufficient ... -
Exponential stability to localized type III thermoelasticity
Muñoz Rivera, Jaime E.; Quintanilla de Latorre, Ramón (2018-11-01)
Article
Accés obertThis paper investigates the system proposed by a wave equation and a heat equation of type III in one part of the domain; a wave equation and a heat equation of type II in another part of the domain, coupled in a certain ... -
Gevrey class for locally three-phase-lag thermoelastic beam system
Muñoz Rivera, Jaime E.; Ochoa Ochoa, Elena; Quintanilla de Latorre, Ramón (2024-04)
Article
Accés restringit per política de l'editorialIn this article we study the behavior of the solutions for the three-phase-lag heat equation with localized dissipation on an Euler–Bernoulli beam model. We show that semigroup S(t) associated with the problem is of Gevrey ... -
On the decay of solutions for porous-elastic systems with history
Pamplona, Paulo Xavier; Muñoz Rivera, Jaime E.; Quintanilla de Latorre, Ramón (2011-07-15)
Article
Accés restringit per política de l'editorialIn this paper we study the asymptotic behavior to an one-dimensional porous-elasticity problem with history. We show the lack of exponential stability when the porous dissipation or the elastic dissipation is absent. And ... -
Qualitative results for a mixture of Green-Lindsay thermoelastic solids
Magaña Nieto, Antonio; Muñoz Rivera, Jaime E.; Naso, Maria Grazia; Quintanilla de Latorre, Ramón (2018-07)
Article
Accés obertWe study qualitative properties of the solutions of the system of partial differential equations modeling thermomechanical deformations for mixtures of thermoelastic solids when the theory of Green and Lindsay for the ... -
Time decay of viscoelastic plates with type II heat conduction
Muñoz Rivera, Jaime E.; Ochoa Ochoa, Elena; Quintanilla de Latorre, Ramón (Elsevier, 2023-12-15)
Article
Accés restringit per política de l'editorialIn this work, we consider the thermomechanical problem determined by a viscoelastic plate coupled with heat conduction of type II. This problem differs significantly from what can be found in the literature since we assume ...