Add to ORKGThe statistical-thermodynamic dislocation theory developed in previous papers is used here in an analysis of yielding transitions and grain-size effects in polycrystalline solids. Calculations are based on the 1995 experimental results of Meyers, Andrade, and Chokshi [Metall. Mater. Trans. A 26, 2881 (1995)MMTAEB1073-562310.1007/BF02669646] for polycrystalline copper under strain-hardening conditions. The main assertion is that the well-known Hall-Petch effects are caused by enhanced strengths of dislocation sources at the edges of grains instead of the commonly assumed resistance to dislocation flow across grain boundaries. The theory describes rapid transitions between elastic and plastic deformation at yield points; thus it can be used t...
This paper starts with a systematic rederivation of the statistical thermodynamic equations of motio...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Dislocation-grain boundary interaction plays a key role in the plasticity of polycrystalline materia...
The statistical-thermodynamic dislocation theory developed in previous papers is used here in an ana...
The evolution of the yield and flow stress in polycrystals with characteristic grain sizes ranging f...
Polycrystalline materials with mean grain size smaller than 10nm will soften if its mean grain size ...
International audienceThe effect of grain size on the tensile plastic deformation of ultrafine-grain...
A brief history and update are given in four examples demonstrating that polycrystals are generally ...
The grain size dependence of the flow strength of polycrystals is analyzed using plane strain, discr...
Dislocation pile-up and thermal activation influences on the deformation and fracturing behaviors of...
The dependence of shear yield strength on grain size is analyzed using discrete dislocation dynamics...
Nanocrystalline (NC) metals are exceptionally strong because they contain an unusually high density ...
The evolution of dislocation storage in deformed copper was studied with cross-correlation-based hig...
Dislocations are the carriers of plasticity in crystalline materials. Their collective interaction b...
Modeling of scale-dependent characteristics of mechanical properties of metal polycrystals is studie...
This paper starts with a systematic rederivation of the statistical thermodynamic equations of motio...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Dislocation-grain boundary interaction plays a key role in the plasticity of polycrystalline materia...
The statistical-thermodynamic dislocation theory developed in previous papers is used here in an ana...
The evolution of the yield and flow stress in polycrystals with characteristic grain sizes ranging f...
Polycrystalline materials with mean grain size smaller than 10nm will soften if its mean grain size ...
International audienceThe effect of grain size on the tensile plastic deformation of ultrafine-grain...
A brief history and update are given in four examples demonstrating that polycrystals are generally ...
The grain size dependence of the flow strength of polycrystals is analyzed using plane strain, discr...
Dislocation pile-up and thermal activation influences on the deformation and fracturing behaviors of...
The dependence of shear yield strength on grain size is analyzed using discrete dislocation dynamics...
Nanocrystalline (NC) metals are exceptionally strong because they contain an unusually high density ...
The evolution of dislocation storage in deformed copper was studied with cross-correlation-based hig...
Dislocations are the carriers of plasticity in crystalline materials. Their collective interaction b...
Modeling of scale-dependent characteristics of mechanical properties of metal polycrystals is studie...
This paper starts with a systematic rederivation of the statistical thermodynamic equations of motio...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Dislocation-grain boundary interaction plays a key role in the plasticity of polycrystalline materia...