Add to ORKGDynamic jamming is a phenomenon whereby a dense suspension switches from a fluidlike to a solidlike state when subjected to sufficient stress and deformation. Large enough systems show that this transition is accompanied by a distinct jamming front. We present an experimental study where two jamming fronts are created simultaneously using two cylinders moving in parallel.We focus our observations on the collision of the jammed regions when the two fronts meet. Surprisingly, our measurements, combining surface texture visualization and time-resolved particle image velocimetry, show the formation of an unjammed region contained within the otherwise jammed suspension
Under an applied traction, highly concentrated suspensions of solid particles in fluids can turn fro...
We consider the problem of hard spheres shearing from rest with hydrodynamic lubrication, but no Bro...
Complex fluids exhibit a variety of exotic flow behaviours under high stresses, such as shear thicke...
Dynamic jamming is a phenomenon whereby a dense suspension switches from a fluidlike to a solidlike ...
Mixtures of liquids and solid particles, known as suspensions, are a quite common material both in n...
Experimental results of towing a cylinder through a dense suspension of cornstarch and sucrose-water...
We describe a model experiment for dynamic jamming: a two-dimensional collection of initially unjamm...
We report experiments investigating jamming fronts in a floating layer of cornstarch suspension. The...
Abstract The dynamics of a rigid body sliding on a frictional contact can have multiple solutions as...
Liquid-like at rest, dense suspensions of hard particles can undergo striking transformations in beh...
Abstract: Measurements of the surface velocity and surface texture of a freely propagating shear jam...
We investigate the jamming transition of frictional particulate systems via discrete element simulat...
A remarkable property of dense suspensions is that they can transform from liquid-like at rest to so...
We numerically study the impact-induced hardening in dense suspensions. We employ the lattice Boltzm...
The response of dense suspensions to an external force was studied using two different experiments. ...
Under an applied traction, highly concentrated suspensions of solid particles in fluids can turn fro...
We consider the problem of hard spheres shearing from rest with hydrodynamic lubrication, but no Bro...
Complex fluids exhibit a variety of exotic flow behaviours under high stresses, such as shear thicke...
Dynamic jamming is a phenomenon whereby a dense suspension switches from a fluidlike to a solidlike ...
Mixtures of liquids and solid particles, known as suspensions, are a quite common material both in n...
Experimental results of towing a cylinder through a dense suspension of cornstarch and sucrose-water...
We describe a model experiment for dynamic jamming: a two-dimensional collection of initially unjamm...
We report experiments investigating jamming fronts in a floating layer of cornstarch suspension. The...
Abstract The dynamics of a rigid body sliding on a frictional contact can have multiple solutions as...
Liquid-like at rest, dense suspensions of hard particles can undergo striking transformations in beh...
Abstract: Measurements of the surface velocity and surface texture of a freely propagating shear jam...
We investigate the jamming transition of frictional particulate systems via discrete element simulat...
A remarkable property of dense suspensions is that they can transform from liquid-like at rest to so...
We numerically study the impact-induced hardening in dense suspensions. We employ the lattice Boltzm...
The response of dense suspensions to an external force was studied using two different experiments. ...
Under an applied traction, highly concentrated suspensions of solid particles in fluids can turn fro...
We consider the problem of hard spheres shearing from rest with hydrodynamic lubrication, but no Bro...
Complex fluids exhibit a variety of exotic flow behaviours under high stresses, such as shear thicke...