Add to ORKGThe aim of this work is to develop a dislocation density based model for IF and DP steels that incorporates details of the microstructure evolution at the grain-size scale. The model takes into account (i) the contribution of the chemical composition for the prediction of the initial yield stress, (ii) the description of initial texture anisotropy by incorporating grain-size dependent anisotropy coefficients in Hill’48 yield criterion, (iii) the contribution of three dislocation density “families” that are associated with forward, reverse and latent structures. It reproduces the macroscopic transient behaviors observed when strain-path changes occur. The model is implemented in FE code in order to assess its predictive capabilities in case ...
Recently, severe plastic deformation induced microstructure evolution has been studied through exten...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...
The aim of this work is to develop a dislocation density based model for IF and DP steels that incor...
Sheet metal forming processes involve multi-axial strain paths. For the numerical simulation of such...
Sheet metal forming processes are commonly associated with strain-path changes in the material. Macr...
Sheet metal forming processes are commonly associated with strain-path changes in the material. Macr...
A microstructural model, based on Peeters' works, is implemented into a large strain self-consistent...
With a view to environmental, economic and safety concerns, car manufacturers need to design lighter...
Due to the existence of constituents with strong distinction in mechanical properties, dual phase st...
Dual phase steels are well suited to the automotive application. Their microstru...
In order to investigate the effects of microstructure and deformation mechanisms on the ductility of...
In this paper, the effects of microstructure and deformation mechanisms on the ductility of multipha...
This paper aims to identify the mechanisms associated to the transient hardening behaviour of dual p...
In this paper, the effects of microstructure and deformation mechanisms on the ductility of multipha...
Recently, severe plastic deformation induced microstructure evolution has been studied through exten...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...
The aim of this work is to develop a dislocation density based model for IF and DP steels that incor...
Sheet metal forming processes involve multi-axial strain paths. For the numerical simulation of such...
Sheet metal forming processes are commonly associated with strain-path changes in the material. Macr...
Sheet metal forming processes are commonly associated with strain-path changes in the material. Macr...
A microstructural model, based on Peeters' works, is implemented into a large strain self-consistent...
With a view to environmental, economic and safety concerns, car manufacturers need to design lighter...
Due to the existence of constituents with strong distinction in mechanical properties, dual phase st...
Dual phase steels are well suited to the automotive application. Their microstru...
In order to investigate the effects of microstructure and deformation mechanisms on the ductility of...
In this paper, the effects of microstructure and deformation mechanisms on the ductility of multipha...
This paper aims to identify the mechanisms associated to the transient hardening behaviour of dual p...
In this paper, the effects of microstructure and deformation mechanisms on the ductility of multipha...
Recently, severe plastic deformation induced microstructure evolution has been studied through exten...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...
The influence of the austenitic microstructural morphology on the mechanical response of a multiphas...