In this work, we numerically study a dense colloidal suspension flowing through a small outlet driven by a pressure drop using lattice-Boltzmann methods. This system shows intermittent flow regimes that precede clogging events. Several pieces of evidence suggest that the temperature controls the dynamic state of the system when the driving force and the aperture size are fixed. When the temperature is low, the suspension's flow can be interrupted during long time periods, which can be even two orders of magnitude larger than the system's characteristic time (Stokes). We also find that strong thermal noise does not allowthe formation of stable aggregate structures avoiding extreme clogging events, but, at the same time, it randomizes the par...
My thesis work focuses on the nonlinear mechanical behaviors of colloidal suspensions at the particl...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
We analyze the short-time dynamical behavior of a colloidal suspension in a confined geometry. We an...
In this work, we numerically study a dense colloidal suspension flowing through a small outlet drive...
Jamming is a physical phenomenon that occurs in many different systems on a multitude of length scal...
We study the motion of a spherical particle driven by a constant volume force in a confined channel ...
The aim of this thesis is to understand how the diffusive dynamics and flow behaviors of colloidal h...
The onset of jamming is a physical phenomenon that occurs in many different systems on a multitude o...
In this work, we study the constitutive behavior of interacting colloidal suspensions for moderate a...
Forcing dense suspensions of non-cohesive particles through constrictions might result in a continuo...
International audienceSuspensions of non-Brownian spherical particles undergoing shear provide a uni...
Soft, low-friction particles in silos show peculiar features during their discharge. The outflow vel...
A strong coupling between shear, confinement and microstructure governs the flow of dense colloidal ...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
In this study, the Lattice Boltzmann (LB) method is applied for computer simulation of suspension fl...
My thesis work focuses on the nonlinear mechanical behaviors of colloidal suspensions at the particl...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
We analyze the short-time dynamical behavior of a colloidal suspension in a confined geometry. We an...
In this work, we numerically study a dense colloidal suspension flowing through a small outlet drive...
Jamming is a physical phenomenon that occurs in many different systems on a multitude of length scal...
We study the motion of a spherical particle driven by a constant volume force in a confined channel ...
The aim of this thesis is to understand how the diffusive dynamics and flow behaviors of colloidal h...
The onset of jamming is a physical phenomenon that occurs in many different systems on a multitude o...
In this work, we study the constitutive behavior of interacting colloidal suspensions for moderate a...
Forcing dense suspensions of non-cohesive particles through constrictions might result in a continuo...
International audienceSuspensions of non-Brownian spherical particles undergoing shear provide a uni...
Soft, low-friction particles in silos show peculiar features during their discharge. The outflow vel...
A strong coupling between shear, confinement and microstructure governs the flow of dense colloidal ...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
In this study, the Lattice Boltzmann (LB) method is applied for computer simulation of suspension fl...
My thesis work focuses on the nonlinear mechanical behaviors of colloidal suspensions at the particl...
We apply a hybrid molecular dynamics and mesoscopic simulation technique to study the steady-state s...
We analyze the short-time dynamical behavior of a colloidal suspension in a confined geometry. We an...