Grain-size effect in viscoplastic polycrystals at moderate strains

Continuum thermodynamic models for crystal plasticity including the effects of geometrically-necessary dislocations, Unnamed Item, Microstructure in plasticity without nonconvexity, Modelling multiple cycles of static and dynamic recrystallisation using a fully implicit isotropic material model based on dislocation density, Modelling the plastic anisotropy of metals, Thermodynamical frameworks for higher grade material theories with internal variables or additional degrees of freedom, Crystal plasticity with Jacobian-free Newton-Krylov, Continuity constraints at interfaces and their consequences on the work hardening of metal-matrix composites, Dwell fatigue crack nucleation model based on crystal plasticity finite element simulations of polycrystalline titanium alloys, A strain gradient crystal plasticity analysis of grain size effects in polycrystals, Constitutive analysis of finite deformation field dislocation mechanics, A single crystal plasticity finite element formulation with embedded deformation twins, Damage at negative triaxiality, Finite element approximation of finite deformation dislocation mechanics, Coupling effect of strain gradient strengthening and thermal softening on the microscale plastic behavior of metallic materials, Creep and recrystallization of large polycrystalline masses. I. General continuum theory, Simulation of micro-indentation hardness of FCC single crystals by mechanism-based strain gradient crystal plasticity, Size effects in generalised continuum crystal plasticity for two-phase laminates, The size effect on void growth in ductile materials., Determination of the microscale stress-strain curve and strain gradient effect from the micro-bend of ultra-thin beams, Size effects and idealized dislocation microstructure at small scales: predictions of a phenomenological model of mesoscopic field dislocation mechanics. I., Size effects and idealized dislocation microstructure at small scales: predictions of a phenomenological model of mesoscopic field dislocation mechanics. II., On the effect of slip transfer at grain boundaries on the strength of FCC polycrystals, A finite-deformation, gradient theory of single-crystal plasticity with free energy dependent on densities of geometrically necessary dislocations, Lagrange multiplier method of the general variational principles of finite deformation theory of couple stress and its application in the strain gradient plasticity, A multiscale gradient theory for single crystalline elastoviscoplasticity, On boundary conditions and plastic strain-gradient discontinuity in lower-order gradient plasticity, Modeling the evolution of crystallographic dislocation density in crystal plasticity, Size effect in micro-scale cantilever beam bending, On the evolution of crystallographic dislocation density in non-homogeneously deforming crystals, Two stochastic mean-field polycrystal plasticity methods, Continuity in the plastic strain rate and its influence on texture evolution, A gradient theory of single-crystal viscoplasticity that accounts for geometrically necessary dislocations, A finite deformation theory of strain gradient plasticity, Coupled electrochemical-mechanical modeling with strain gradient plasticity for lithium-ion battery electrodes, Distortion-gradient plasticity theory for an isotropic body in finite deformation, A crystal plasticity model that incorporates stresses and strains due to slip gradients, Study of size effects in thin films by means of a crystal plasticity theory based on DiFT, New Perspectives in Plasticity Theory: Dislocation Nucleation, Waves, and Partial Continuity of Plastic Strain Rate, Modeling the microstructural evolution of metallic polycrystalline materials under localization conditions, Formulation and characterization of a continuous crystal lattice orientation finite element method (LOFEM) and its application to dislocation fields, Nonlinear plastic buckling analysis of micro-scale thin plates established on higher order mechanism-based strain gradient plasticity framework, Cross-sectional nano-indentation of ion-irradiated steels: finite element simulations based on the strain-gradient crystal plasticity theory, Non-local crystal plasticity model with intrinsic SSD and GND effects, Effects of lattice incompatibility-induced hardening on the fracture behavior of ductile single crystals, Generalized Continuum Modelling of Crystal Plasticity, Finite element approximation of field dislocation mechanics

• PSPASES

• Unnamed Item
• An extension of the Bodner-Partom model of plastic deformation
• A phenomenological theory for strain gradient effects in plasticity
• Thermodynamic restrictions on constitutive equations for second-deformation-gradient inelastic behavior
• Lattice incompatibility and a gradient theory of crystal plasticity
• A hybrid finite element formulation for polycrystal plasticity with consideration of macrostructural and microstructural linking
• Strain gradient crystal plasticity: Size-dependent deformation of bicrystals
• On the Constitution of Metallic Sodium