Surface Evolver simulations of flowing two-dimensional foams are described. These are used for two purposes. Firstly, to extract the location of the T 1 s, the changes in bubble topology that occur during plastic flow. It is shown that in linear Couette flow the T 1 s are localized in space, becoming more so as the polydispersity of the foam decreases. Secondly, the sedimentation of two circular discs through a foam under gravity is studied. If the discs are sufficiently close, they begin to interact and one moves behind the other during their descent
Many numerical methods now exist to simulate the structure and dynamics of surface-tension-dominated...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...
Surface Evolver simulations of flowing two-dimensional foams are described. These are used for two p...
The flow of two-dimensional aqueous foams in the Couette geometry highlights the shear-response of t...
Numerical simulations of foam flow in narrow channels are described. The fields of velocity, strain,...
The sedimentation of circular discs in a dry two-dimensional, monodisperse foam is studied. This, a ...
We describe an interactive computer program FoamVis that provides techniques for visualization, expl...
The flow of a quasi-two-dimensional foam through a constriction is described. The bubble velocity an...
One way in which the complex elastic, plastic and viscous properties of a liquid foam can be explore...
A comprehensive set of experiments on a two-dimensional constriction flow of a foam are described. I...
When foams flow through porous media, the interaction of the lamellae with the walls of the channels...
The sedimentation of an elliptical object in a dry two-dimensional, monodisperse foam is simulated. ...
Two-dimensional bidisperse foams were simulated in cyclic, uniaxial, extensional shear. Mixing of bu...
We describe a numerical model to predict the rheology of two-dimensional dry foams. The model accura...
Many numerical methods now exist to simulate the structure and dynamics of surface-tension-dominated...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...
Surface Evolver simulations of flowing two-dimensional foams are described. These are used for two p...
The flow of two-dimensional aqueous foams in the Couette geometry highlights the shear-response of t...
Numerical simulations of foam flow in narrow channels are described. The fields of velocity, strain,...
The sedimentation of circular discs in a dry two-dimensional, monodisperse foam is studied. This, a ...
We describe an interactive computer program FoamVis that provides techniques for visualization, expl...
The flow of a quasi-two-dimensional foam through a constriction is described. The bubble velocity an...
One way in which the complex elastic, plastic and viscous properties of a liquid foam can be explore...
A comprehensive set of experiments on a two-dimensional constriction flow of a foam are described. I...
When foams flow through porous media, the interaction of the lamellae with the walls of the channels...
The sedimentation of an elliptical object in a dry two-dimensional, monodisperse foam is simulated. ...
Two-dimensional bidisperse foams were simulated in cyclic, uniaxial, extensional shear. Mixing of bu...
We describe a numerical model to predict the rheology of two-dimensional dry foams. The model accura...
Many numerical methods now exist to simulate the structure and dynamics of surface-tension-dominated...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...