This paper treats the computational modeling of size dependence in microstructure models of metals. Different gradient crystal plasticity strategies are analyzed and compared. For the numerical implementation, a dual-mixed finite element formulation which is suitable for parallelization is suggested. The paper ends with a representative numerical example for polycrystals
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
Crystal plasticity plays a crucial role in the mechanics of polycrystalline materials and it is com...
This paper treats the computational modeling of size dependence in microstructure models of metals. ...
This thesis treats the modeling of grain size dependence inmicrostructure models of metals. It is sh...
This chapter studies the thermodynamical consistency and the finite element implementation aspects o...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
Crystal inelasticity is the main modeling technique employed to study the mechanical behavior of pol...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
The macroscopic behavior of a polycrystalline material (metal) depends on the characteristicsof the ...
© 2014 The Authors. Published by Elsevier Ltd. The application of a gradient extended theory to the ...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
The present manuscript addresses the computational modeling of size effects in the plastic behavior ...
We study an idealized bending problem where two types of size effects are present – one induced by t...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
Crystal plasticity plays a crucial role in the mechanics of polycrystalline materials and it is com...
This paper treats the computational modeling of size dependence in microstructure models of metals. ...
This thesis treats the modeling of grain size dependence inmicrostructure models of metals. It is sh...
This chapter studies the thermodynamical consistency and the finite element implementation aspects o...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
Crystal inelasticity is the main modeling technique employed to study the mechanical behavior of pol...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
The macroscopic behavior of a polycrystalline material (metal) depends on the characteristicsof the ...
© 2014 The Authors. Published by Elsevier Ltd. The application of a gradient extended theory to the ...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
The present manuscript addresses the computational modeling of size effects in the plastic behavior ...
We study an idealized bending problem where two types of size effects are present – one induced by t...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
Crystal plasticity plays a crucial role in the mechanics of polycrystalline materials and it is com...