A fully-relaxed variationally-consistent framework for inelastic micro-sphere models: Finite viscoelasticity

The micro-sphere modeling framework provides a popular means by which one-dimensional mechanical models can easily and quickly be generalized into three-dimensional stress-strain models. The essential notion of the framework, similar to homogenization theory, is that one allows the microstructural k...

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Published inJournal of the mechanics and physics of solids Vol. 127; pp. 1 - 19
Main Authors Govindjee, Sanjay, Zoller, Miklos J., Hackl, Klaus
Format Journal Article
LanguageEnglish
Published London Elsevier Ltd 01.06.2019
Elsevier BV
Subjects
Deformation
Finite deformation viscoelasticity
Homogenization
Inelastic materials
Macroscopic models
Micro-sphere
Modelling
Three dimensional models
Viscoelasticity
Finite deformation viscoelasticity
Micro-sphere
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Abstract The micro-sphere modeling framework provides a popular means by which one-dimensional mechanical models can easily and quickly be generalized into three-dimensional stress-strain models. The essential notion of the framework, similar to homogenization theory, is that one allows the microstructural kinematic fields to relax subject to a constraint connected to a macroscopic deformation measure. In its standard presentation, the micro-sphere modeling framework is strictly applicable to elastic materials. Presentations considering inelastic phenomena invariably, and inconsistently, assume an affine relation between inelastic macroscopic and microscopic phenomena. In this work we present a methodology by which one can lift this modeling restriction using two formally different approaches. In particular, we show how one can construct and apply a homogenization with Biot theory to generate fully-relaxed variationally-consistent macroscopic models for inelastic materials within the context of the micro-sphere model. The primary application example will be finite deformation viscoelasticity.
AbstractList The micro-sphere modeling framework provides a popular means by which one-dimensional mechanical models can easily and quickly be generalized into three-dimensional stress-strain models. The essential notion of the framework, similar to homogenization theory, is that one allows the microstructural kinematic fields to relax subject to a constraint connected to a macroscopic deformation measure. In its standard presentation, the micro-sphere modeling framework is strictly applicable to elastic materials. Presentations considering inelastic phenomena invariably, and inconsistently, assume an affine relation between inelastic macroscopic and microscopic phenomena. In this work we present a methodology by which one can lift this modeling restriction using two formally different approaches. In particular, we show how one can construct and apply a homogenization with Biot theory to generate fully-relaxed variationally-consistent macroscopic models for inelastic materials within the context of the micro-sphere model. The primary application example will be finite deformation viscoelasticity.
Author Hackl, Klaus
Govindjee, Sanjay
Zoller, Miklos J.
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  givenname: Miklos J.
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  givenname: Klaus
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Micro-sphere
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Snippet The micro-sphere modeling framework provides a popular means by which one-dimensional mechanical models can easily and quickly be generalized into...
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SubjectTerms Deformation
Finite deformation viscoelasticity
Homogenization
Inelastic materials
Macroscopic models
Micro-sphere
Modelling
Three dimensional models
Viscoelasticity
Title A fully-relaxed variationally-consistent framework for inelastic micro-sphere models: Finite viscoelasticity
URI https://dx.doi.org/10.1016/j.jmps.2019.02.014
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