Vít Průša scite author profile

We propose thermodynamically consistent models for viscoelastic fluids with a stress diffusion term. In particular, we derive variants of compressible/incompressible Maxwell/Oldroyd-B models with a stress diffusion term in the evolution equation for the extra stress tensor. It is shown that the stress diffusion term can be interpreted either as a consequence of a nonlocal energy storage mechanism or as a consequence of a nonlocal entropy production mechanism, while different interpretations of the stress diffusion mechanism lead to different evolution equations for the temperature. The benefits of the knowledge of the thermodynamical background of the derived models are documented in the study of nonlinear stability of equilibrium rest states. The derived models open up the possibility to study fully coupled thermomechanical problems involving viscoelastic rate-type fluids with stress diffusion.

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On thermodynamics of incompressible viscoelastic rate type fluids with temperature dependent material coefficients

Hron

Miloš

Průša

et al. 2017

International Journal of Non-Linear Mechanics

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We derive a class of thermodynamically consistent variants of Maxwell/Oldroyd-B type models for viscoelastic fluids. In particular, we study the models that allow one to consider temperature dependent material coefficients. This naturally calls for the formulation of a temperature evolution equation that would accompany the evolution equations for the mechanical quantities. The evolution equation for the temperature is explicitly formulated, and it is shown to be consistent with the laws of thermodynamics and the evolution equations for the mechanical quantities. The temperature evolution equation contains terms that are ignored or even not thought of in most of the works dealing with this class of fluids. The impact of the additional terms in the temperature evolution equation on the flow dynamics is documented by the solution of simple initial/boundary value problems.

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Derivation of Equations for Continuum Mechanics and Thermodynamics of Fluids

Málek

Průša

2018

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Generalizations of the Navier–Stokes fluid from a new perspective

Málek

Průša

Rajagopal

2010

International Journal of Engineering Science

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A thermodynamic basis for implicit rate-type constitutive relations describing the inelastic response of solids undergoing finite deformation

Cichra

Průša

2020

Mathematics and Mechanics of Solids

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Implicit rate-type constitutive relations utilising discontinuous functions provide a novel approach to the purely phenomenological description of the inelastic response of solids undergoing finite deformation. However, this type of constitutive relation has so far been considered only in the purely mechanical setting, and the complete thermodynamic basis is largely missing. We address this issue, and we develop a thermodynamic basis for such constitutive relations. In particular, we focus on the thermodynamic basis for the classical elastic–perfectly plastic response, but the framework is flexible enough to describe other types of inelastic response as well.

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Vít Průša

Thermodynamics of viscoelastic rate-type fluids with stress diffusion

On thermodynamics of incompressible viscoelastic rate type fluids with temperature dependent material coefficients

Derivation of Equations for Continuum Mechanics and Thermodynamics of Fluids

Generalizations of the Navier–Stokes fluid from a new perspective

A thermodynamic basis for implicit rate-type constitutive relations describing the inelastic response of solids undergoing finite deformation

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