Predictive modelling of the mechanical behavior of granular solids such as fertilizer or sand is a difficult task as the heterogeneity at the mesoscale (scale resolving individual grains) strongly affects the response at the macro-scale. Therefore, multi-scale simulation approaches describing this class of materials are of particular interest. A common multi-scale approach is the bottom-up approach where a series of connected simulations are performed. For example, simulations of representative structures are performed at the meso-scale, resolving individual grains. The results obtained from meso-scale simulations are then homogenized and used for describing the material at a larger scale, the macro-scale. It is however difficult to obtain ...
In finite element simulations dedicated to the modelling of microstructure evolution, the mesh has t...
With continuing evolution of imaging techniques from medical applications and materials science, non...
This paper presents a method within the family of the discrete element method (DEM) capable of accur...
This study focuses on a meso-scale approach to numerical simulations of a granular material subjecte...
In this paper we report some key advances in the characterization and modelling of granular matter. ...
This dissertation provides a systematical investigation of computational approaches to mod- eling of...
AbstractIn this paper we report some key advances in the characterization and modelling of granular ...
To closely follow material behaviour in a FE model, a numerical model of the material at a small len...
Recent developments in experimental techniques are enabling researchers to non-destructively charact...
Motivated by recentadvances in X-Ray Computed Tomography (XRCT) for analyzing phenomenon emanating f...
Through a first-generation computational mechanics avatar that directly links advanced X-ray compute...
Imaging, epitomized by computed tomography, continues to provide unprecedented 3D access to granular...
Different modelling approaches are tested for the prediction of plastic heterogeneity of a dual-phas...
The Discrete Element Method is a popular method for modeling granular materials, however, it is typi...
© 2018 EAGE. Estimations of the elastic properties of a core sample are extremely sensitive to the q...
In finite element simulations dedicated to the modelling of microstructure evolution, the mesh has t...
With continuing evolution of imaging techniques from medical applications and materials science, non...
This paper presents a method within the family of the discrete element method (DEM) capable of accur...
This study focuses on a meso-scale approach to numerical simulations of a granular material subjecte...
In this paper we report some key advances in the characterization and modelling of granular matter. ...
This dissertation provides a systematical investigation of computational approaches to mod- eling of...
AbstractIn this paper we report some key advances in the characterization and modelling of granular ...
To closely follow material behaviour in a FE model, a numerical model of the material at a small len...
Recent developments in experimental techniques are enabling researchers to non-destructively charact...
Motivated by recentadvances in X-Ray Computed Tomography (XRCT) for analyzing phenomenon emanating f...
Through a first-generation computational mechanics avatar that directly links advanced X-ray compute...
Imaging, epitomized by computed tomography, continues to provide unprecedented 3D access to granular...
Different modelling approaches are tested for the prediction of plastic heterogeneity of a dual-phas...
The Discrete Element Method is a popular method for modeling granular materials, however, it is typi...
© 2018 EAGE. Estimations of the elastic properties of a core sample are extremely sensitive to the q...
In finite element simulations dedicated to the modelling of microstructure evolution, the mesh has t...
With continuing evolution of imaging techniques from medical applications and materials science, non...
This paper presents a method within the family of the discrete element method (DEM) capable of accur...