International audienceAs the computational capability of modern computers increases, the Crystal Plasticity Finite Element Method (CPFEM) becomes more and more popular in materials science to model the mechanical behaviour of polycrystals. Indeed, such analysis provides extensive information about local mechanical fields (such as plastic strain and stress), which can be useful for understanding the behaviour of bulk materials. However, estimating the parameters of the CP constitutive laws is still challenging because they are not directly related to the macroscopic behaviour of the polycrystalline aggregates. Thus, one way to identify such parameters is by inverse analysis from CPFEM simulations. However, such approach is usually extremely ...
High-resolution crystal plasticity-finite element method (CPFEM) simulations are performed to provid...
A crystal plasticity finite element method (CPFEM) model was developed to analyse the surface roughn...
An inverse optimization strategy was developed to determine the single crystal properties from exper...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
A severe obstacle for the routine use of crystal plasticity models is the effort associated with det...
This paper reviews some of the modelling and experimental techniques recently employed by the author...
Crystal plasticity finite element models have been extensively used to simulate various aspects of p...
A number of studies have directly compared measurements of polycrystals’ deformation to the solution...
The effective mechanical properties of a polycrystal depend directly on the single-crystal propertie...
The effective mechanical properties of a polycrystal depend directly on the single-crystal propertie...
A bottom-up material modeling based on a nonlocal crystal plasticity model requires information of a...
The modeling and simulation of metal forming processes is typically based on experimental data. Unfo...
Scientists from the theory group in the Department for Microstructure Physics and Metal Forming at t...
High-resolution crystal plasticity-finite element method (CPFEM) simulations are performed to provid...
A crystal plasticity finite element method (CPFEM) model was developed to analyse the surface roughn...
An inverse optimization strategy was developed to determine the single crystal properties from exper...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
A severe obstacle for the routine use of crystal plasticity models is the effort associated with det...
This paper reviews some of the modelling and experimental techniques recently employed by the author...
Crystal plasticity finite element models have been extensively used to simulate various aspects of p...
A number of studies have directly compared measurements of polycrystals’ deformation to the solution...
The effective mechanical properties of a polycrystal depend directly on the single-crystal propertie...
The effective mechanical properties of a polycrystal depend directly on the single-crystal propertie...
A bottom-up material modeling based on a nonlocal crystal plasticity model requires information of a...
The modeling and simulation of metal forming processes is typically based on experimental data. Unfo...
Scientists from the theory group in the Department for Microstructure Physics and Metal Forming at t...
High-resolution crystal plasticity-finite element method (CPFEM) simulations are performed to provid...
A crystal plasticity finite element method (CPFEM) model was developed to analyse the surface roughn...
An inverse optimization strategy was developed to determine the single crystal properties from exper...