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Thermoviscoelasticity in Kelvin–Voigt Rheology at Large Strains

Alexander Mielke, Tomáš Roubíček

2020Archive for Rational Mechanics and Analysis47 citationsDOIOpen Access PDF

Abstract

Abstract The frame-indifferent thermodynamically-consistent model of thermoviscoelasticity at large strain is formulated in the reference configuration by using the concept of the second-grade nonsimple materials. We focus on physically correct viscous stresses that are frame indifferent under time-dependent rotations. Also elastic stresses are frame indifferent under rotations and respect positivity of the determinant of the deformation gradient. The heat transfer is governed by the Fourier law in the actual deformed configuration, which leads to a nontrivial description when pulled back to the reference configuration. The existence of weak solutions in the quasistatic setting, that is inertial forces are ignored, is shown by time discretization.

Topics & Concepts

Quasistatic processInertial frame of referenceRheologyDeformation (meteorology)Focus (optics)MathematicsClassical mechanicsMathematical analysisViscoelasticityReference frameFrame of referenceFrame (networking)PhysicsWeak solutionFourier transformElasticity (physics)Domain (mathematical analysis)MechanicsComplex systemInfinitesimal strain theorySolid bodyExistence theoremGeometryHeat transferStrain (injury)Calculus (dental)Simple (philosophy)Elasticity and Material ModelingNonlocal and gradient elasticity in micro/nano structuresThermoelastic and Magnetoelastic Phenomena
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