Bounds on the effective response for gradient crystal inelasticity based on homogenization and virtual testing

Plastic materials, materials of stress-rate and internal-variable type (74Cxx) Material properties given special treatment (74Exx) Generalities, axiomatics, foundations of continuum mechanics of solids (74Axx)

Cites Work

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A multi-field incremental variational framework for gradient-extended standard dissipative solids
Approximation of random microstructures by periodic statistically similar representative volume elements based on lineal-path functions
The role of dissipation and defect energy in variational formulations of problems in strain-gradient plasticity. I: Polycrystalline plasticity
Computational homogenization based on a weak format of micro-periodicity for RVE-problems
On the computation of the macroscopic tangent for multiscale volumetric homogenization problems
Large-scale 3D random polycrystals for the finite element method: generation, meshing and remeshing
Introduction to computational micromechanics
Allgemeine Kontinuumstheorie der Versetzungen und Eigenspannungen
Multi-scale computational homogenization: trends and challenges
Bounds on overall instantaneous properties of elastic-plastic composites
Overall potentials and extremal surfaces of power law or ideally plastic composites
A thermodynamically consistent theory of gradient-regularized plasticity coupled to damage
Indentation size effects in crystalline materials: a law for strain gradient plasticity
On statistical strain and stress energy bounds from homogenization and virtual testing
A comparison of the primal and semi-dual variational formats of gradient-extended crystal inelasticity
Order relationships for boundary conditions effect in heterogeneous bodies smaller than the representative volume
Homogenization of inelastic solid materials at finite strains based on incremental minimization principles. Application to the texture analysis of polycrystals.
Computational micro-to-macro transitions of discretized microstructures undergoing small strains
Effective properties of composite materials with periodic microstructure: A computational approach
Computational homogenization analysis in finite plasticity. Simulation of texture development in polycrystalline materials
Computational homogenization of mesoscale gradient viscoplasticity
Finite element implementation and numerical issues of strain gradient plasticity with application to metal matrix composites
Influence of grain boundary conditions on modeling of size-dependence in polycrystals
Boundary conditions in small-deformation, single-crystal plasticity that account for the Burgers vector
Theory and numerics of a thermodynamically consistent framework for geometrically linear gradient plasticity
Analysis and comparison of two finite element algorithms for dislocation density based crystal plasticity
Gradient crystal plasticity as part of the computational modelling of polycrystals
Multi‐scale constitutive modelling of heterogeneous materials with a gradient‐enhanced computational homogenization scheme
Variationally consistent computational homogenization of transient heat flow
Microstructural Randomness and Scaling in Mechanics of Materials
A model for simulating the deterioration of structural-scale material responses of microheterogeneous solids
Random heterogeneous materials. Microstructure and macroscopic properties
A reformulation of strain gradient plasticity.
A gradient theory of single-crystal viscoplasticity that accounts for geometrically necessary dislocations

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