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Numerical modeling of scale effects for circular cylinder in the theory of thermoelastic materials with voids
Author(s) -
Yu Long Li,
А. А. Волков,
N Lev Rabinskiy,
O Aleksandr Shemiakov
Publication year - 2020
Publication title -
istraživanja i projektovanja za privredu
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.25
H-Index - 13
eISSN - 1821-3197
pISSN - 1451-4117
DOI - 10.5937/jaes0-28042
Subject(s) - thermoelastic damping , multiphysics , order theory , finite element method , partial differential equation , stress (linguistics) , coupling (piping) , cylinder , constitutive equation , mathematics , mechanics , mathematical analysis , physics , thermal , structural engineering , geometry , engineering , mechanical engineering , thermodynamics , linguistics , philosophy
This article is relevant, as changes during the external loading may affect the stress state of the materials. The aim of this paper is to consider the numerical modeling of heating for circular cylinders in the frame of the theory of elastic materials with voids. A numerical solution is build using COMSOL Multiphysics software, where the implementation of the considered theory is realized based on the direct equation-definition approach. Constitutive relations were written in General form partial differential equation module. A matrix form of the equations for the two-dimensional case was used. Scale effects arising in considered problems are discussed. The classical solution is the particular case of the considered theory, when the coupling number tends to asero, i.e. when the micro-dilatation effects are small and do not affect the material's stress state. The limiting case in the case of the small value of the coupling number is the classical thermoelasticity solution.

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