Title of article
Strain gradient plasticity by internal-variable approach with normality structure
Author/Authors
Jidong Zhao، نويسنده , , Daichao Sheng، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
15
From page
5836
To page
5850
Abstract
This paper presents a constitutive formulation for materials with strain gradient effects by internal-variable approach
with normality structure. Specific micro-structural rearrangements are assumed to account for the inelasticity deformations
for this class of materials, and enter the constitutive formulations in form of internal variables. It is further assumed that
the kinetic evolution of any specific micro-structural rearrangement may be fully determined by the thermodynamic forces
associated with that micro-structural rearrangement, by normality relations via a flow potential. Macroscopic gradientenhanced
inelastic behaviours may then be predicted in terms of the microscopic internal variables and their conjugate
forces, and thus a micro–macro bridging formulation is available for strain-gradient-characterised materials. The obtained
formulations are first applied to crystallographic materials, and a crystal gradient plasticity model is developed to account
for the influence of microscopic slip rearrangements on the macroscopic gradient-dependent mechanical behaviour for this
class of materials. Micro-cracked geomaterials are also treated with these formulations and a gradient-enhanced damage
constitutive model is developed to address the impacts of the evolutions of micro-cracks on the macroscopic inelastic
deformations with strain gradient effects for these materials. The available formulations are further compared with other
thermodynamic approaches of constitutive developing.
Keywords
Strain gradient plasticity , Normality structure , Thermodynamics , Internal variable
Journal title
International Journal of Solids and Structures
Serial Year
2006
Journal title
International Journal of Solids and Structures
Record number
448671
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