International audienceThe ability of discrete element models to describe quantitatively (and not only qualitatively) the constitutive behaviour of a dense sand is assessed in this paper. Two kinds of 3D discrete models are considered. Both consider spheres as elementary particles. Nevertheless the first model implements a contact law with rolling resistance whereas the second takes into account clumps made of two spheres. The discrete models are calibrated and validated from mechanical tests performed on a dense Hostun sand with a true triaxial apparatus. The calibration is carried out from axi-symmetric drained compression tests, while the validation is discussed from monotonic and cyclic stress proportional loading paths and from a circul...
The mechanical behavior of granular materials is characterized by strong nonlinearity and irreversib...
A three-dimensional nonlocal multiscale discrete-continuum model has been developed for modeling mec...
AbstractThe mechanical response of cohesionless granular materials under monotonic loading has been ...
International audienceThe ability of discrete element models to describe quantitatively (and not onl...
International audienceThe capability of a discrete element model to predict the constitutive respons...
Granular materials are ubiquitous in engineering activities of our human beings. Constitutive modell...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
The incremental behaviour of crushable sands is investigated by means of a Discrete Element Method (...
The mechanical behaviour of granular materials is characterized by strong non-linearity and irrevers...
This paper presents discrete element method (DEM) simulations with experimental comparisons at multi...
Using a series of true triaxial simulations, this study shows that the particulate discrete-element ...
A discrete-element method (DEM) assembly of virtual particles is calibrated to approximate the behav...
The mechanical behaviour of granular materials is characterized by strong non-linearity and irrevers...
[1] Here we present a series of numerical experiments using a new formulation of the discrete elemen...
The mechanical behavior of granular materials is characterized by strong nonlinearity and irreversib...
A three-dimensional nonlocal multiscale discrete-continuum model has been developed for modeling mec...
AbstractThe mechanical response of cohesionless granular materials under monotonic loading has been ...
International audienceThe ability of discrete element models to describe quantitatively (and not onl...
International audienceThe capability of a discrete element model to predict the constitutive respons...
Granular materials are ubiquitous in engineering activities of our human beings. Constitutive modell...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
The incremental behaviour of crushable sands is investigated by means of a Discrete Element Method (...
The mechanical behaviour of granular materials is characterized by strong non-linearity and irrevers...
This paper presents discrete element method (DEM) simulations with experimental comparisons at multi...
Using a series of true triaxial simulations, this study shows that the particulate discrete-element ...
A discrete-element method (DEM) assembly of virtual particles is calibrated to approximate the behav...
The mechanical behaviour of granular materials is characterized by strong non-linearity and irrevers...
[1] Here we present a series of numerical experiments using a new formulation of the discrete elemen...
The mechanical behavior of granular materials is characterized by strong nonlinearity and irreversib...
A three-dimensional nonlocal multiscale discrete-continuum model has been developed for modeling mec...
AbstractThe mechanical response of cohesionless granular materials under monotonic loading has been ...