A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling

A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling

Abstract The thermal effects of problems involving deformable structures are essential to describe the behavior of materials in feasible terms. Verifying the transformation of mechanical energy into heat it is possible to predict the modifications of mechanical properties of materials due to its temperature changes. The current paper presents the numerical development of a finite element method suitable for nonlinear structures coupled with thermomechanical behavior; including impact problems. A simple and effective alternative formulation is presented, called FEM positional, to deal with the dynamic nonlinear systems. The developed numerical is based on the minimum potential energy written in terms of nodal positions instead of displacements. The effects of geometrical, material and thermal nonlinearities are considered. The thermodynamically consistent formulation is based on the laws of thermodynamics and the Helmholtz free-energy, used to describe the thermoelastic and the thermoplastic behaviors. The coupled thermomechanical model can result in secondary effects that cause redistributions of internal efforts, depending on the history of deformation and material properties. The numerical results of the proposed formulation are compared with examples found in the literature.

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Main Authors: Cavalcante,João Paulo de Barros, Maciel,Daniel Nelson, Greco,Marcelo, Silva Filho,José Neres da
Format: Digital revista
Language:English
Published: Associação Brasileira de Ciências Mecânicas 2017
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1679-78252017001302439
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spelling oai:scielo:S1679-782520170013024392018-02-23A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical CouplingCavalcante,João Paulo de BarrosMaciel,Daniel NelsonGreco,MarceloSilva Filho,José Neres da Positional Formulation Nonlinear analysis Thermomechanical Coupled problems Impact Abstract The thermal effects of problems involving deformable structures are essential to describe the behavior of materials in feasible terms. Verifying the transformation of mechanical energy into heat it is possible to predict the modifications of mechanical properties of materials due to its temperature changes. The current paper presents the numerical development of a finite element method suitable for nonlinear structures coupled with thermomechanical behavior; including impact problems. A simple and effective alternative formulation is presented, called FEM positional, to deal with the dynamic nonlinear systems. The developed numerical is based on the minimum potential energy written in terms of nodal positions instead of displacements. The effects of geometrical, material and thermal nonlinearities are considered. The thermodynamically consistent formulation is based on the laws of thermodynamics and the Helmholtz free-energy, used to describe the thermoelastic and the thermoplastic behaviors. The coupled thermomechanical model can result in secondary effects that cause redistributions of internal efforts, depending on the history of deformation and material properties. The numerical results of the proposed formulation are compared with examples found in the literature.info:eu-repo/semantics/openAccessAssociação Brasileira de Ciências MecânicasLatin American Journal of Solids and Structures v.14 n.13 20172017-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1679-78252017001302439en10.1590/1679-78253737
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Cavalcante,João Paulo de Barros
Maciel,Daniel Nelson
Greco,Marcelo
Silva Filho,José Neres da
spellingShingle Cavalcante,João Paulo de Barros
Maciel,Daniel Nelson
Greco,Marcelo
Silva Filho,José Neres da
A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
author_facet Cavalcante,João Paulo de Barros
Maciel,Daniel Nelson
Greco,Marcelo
Silva Filho,José Neres da
author_sort Cavalcante,João Paulo de Barros
title A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
title_short A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
title_full A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
title_fullStr A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
title_full_unstemmed A Simple FEM Formulation Applied to Nonlinear Problems of Impact with Thermomechanical Coupling
title_sort simple fem formulation applied to nonlinear problems of impact with thermomechanical coupling
description Abstract The thermal effects of problems involving deformable structures are essential to describe the behavior of materials in feasible terms. Verifying the transformation of mechanical energy into heat it is possible to predict the modifications of mechanical properties of materials due to its temperature changes. The current paper presents the numerical development of a finite element method suitable for nonlinear structures coupled with thermomechanical behavior; including impact problems. A simple and effective alternative formulation is presented, called FEM positional, to deal with the dynamic nonlinear systems. The developed numerical is based on the minimum potential energy written in terms of nodal positions instead of displacements. The effects of geometrical, material and thermal nonlinearities are considered. The thermodynamically consistent formulation is based on the laws of thermodynamics and the Helmholtz free-energy, used to describe the thermoelastic and the thermoplastic behaviors. The coupled thermomechanical model can result in secondary effects that cause redistributions of internal efforts, depending on the history of deformation and material properties. The numerical results of the proposed formulation are compared with examples found in the literature.
publisher Associação Brasileira de Ciências Mecânicas
publishDate 2017
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1679-78252017001302439
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AT macieldanielnelson asimplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
AT grecomarcelo asimplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
AT silvafilhojoseneresda asimplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
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AT macieldanielnelson simplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
AT grecomarcelo simplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
AT silvafilhojoseneresda simplefemformulationappliedtononlinearproblemsofimpactwiththermomechanicalcoupling
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