Add to ORKGThe flow perturbation around a circular rigid particle during simple shear deformation has been investigated for both Newtonian and non-Newtonian (power-law) fluids by finite-element modelling. If the particle is rotating under the applied shear couple and no-slip occurs at the particle–fluid interface, a ‘bow-tie-shaped’ streamline pattern results for both Newtonian and power-law fluids and the shape of streamlines does not change noticeably if the stress exponent (n) is changed. In contrast, if the fluid is allowed to separate from the particle, a ‘double-bulge-shaped’ flow develops in the case of Newtonian fluids, and the type of streamline pattern is influenced by n. We suggest that both stair-stepping and non-stair-stepping geometries ...
This paper reports the results of a two-dimensional finite element simulation of the motion of a cir...
This thesis is concerned with the sheared flow of medium dense slurries, consisting rigid particles ...
While colloidal suspensions of non-spherical particles have been studied relatively extensively, gra...
The flow perturbation around a circular rigid particle during simple shear deformation has been inve...
The rotational behaviour of a rigid particle embedded in a linear viscous matrix undergoing cylindri...
International audienceThis study focuses on the interaction of two small freely-moving spheres in a ...
The deformation and cross-streamline migration of an initially spherical neo-Hookean elastic particl...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
ABSTRACT Shear-induced migration of particles is studied during the slow flow of suspensions of sphe...
International audienceThe 3D flow around a rigid spherical particle suspended in a Newtonian fluid a...
International audienceWe study numerically the pair trajectories of rigid circular particles in a tw...
Fine particle suspensions often form non-Newtonian slurries. In mining applications these suspension...
International audienceA computational model is developed for simulating the motion of a single ellip...
Shear-induced migration of particles is studied during the slow flow of suspensions of spheres (part...
This paper reports the results of a two-dimensional finite element simulation of the motion of a cir...
This thesis is concerned with the sheared flow of medium dense slurries, consisting rigid particles ...
While colloidal suspensions of non-spherical particles have been studied relatively extensively, gra...
The flow perturbation around a circular rigid particle during simple shear deformation has been inve...
The rotational behaviour of a rigid particle embedded in a linear viscous matrix undergoing cylindri...
International audienceThis study focuses on the interaction of two small freely-moving spheres in a ...
The deformation and cross-streamline migration of an initially spherical neo-Hookean elastic particl...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
ABSTRACT Shear-induced migration of particles is studied during the slow flow of suspensions of sphe...
International audienceThe 3D flow around a rigid spherical particle suspended in a Newtonian fluid a...
International audienceWe study numerically the pair trajectories of rigid circular particles in a tw...
Fine particle suspensions often form non-Newtonian slurries. In mining applications these suspension...
International audienceA computational model is developed for simulating the motion of a single ellip...
Shear-induced migration of particles is studied during the slow flow of suspensions of spheres (part...
This paper reports the results of a two-dimensional finite element simulation of the motion of a cir...
This thesis is concerned with the sheared flow of medium dense slurries, consisting rigid particles ...
While colloidal suspensions of non-spherical particles have been studied relatively extensively, gra...