Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays an important role in the response. We analyse the liquid distribution within three different types of two-dimensional foam, and predict (i) the rigidity loss transition in each case and (ii) the fraction of the bounding surfaces touched by the liquid network. The latter quantity allows the liquid fraction in an experiment to be determined non-invasively by image analysis
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...
A 2D foam can be characterised by its distribution of bubble areas, and of number of sides. Both dis...
Small cells in an experimental sample of two-dimensional foam, such as that which is contained betwe...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
A two-dimensional foam consists of a monolayer of bubbles. It can be created by squeezing the more f...
A comprehensive set of experiments on a two-dimensional constriction flow of a foam are described. I...
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,...
Many numerical methods now exist to simulate the structure and dynamics of surface-tension-dominated...
Two-dimensional bidisperse foams were simulated in cyclic, uniaxial, extensional shear. Mixing of bu...
Experiments on a small cluster of bubbles in a nominally two-dimensional foam show an instability in...
The flow of a quasi-two-dimensional foam through a constriction is described. The bubble velocity an...
We use the Surface Evolver to determine the shear modulus G of a dry 2D foam of 2500 bubbles, using ...
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...
A 2D foam can be characterised by its distribution of bubble areas, and of number of sides. Both dis...
Small cells in an experimental sample of two-dimensional foam, such as that which is contained betwe...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
Bubble monolayers are widely used to probe the rheology of aqueous foams, and liquid content plays a...
A two-dimensional foam consists of a monolayer of bubbles. It can be created by squeezing the more f...
A comprehensive set of experiments on a two-dimensional constriction flow of a foam are described. I...
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,...
Many numerical methods now exist to simulate the structure and dynamics of surface-tension-dominated...
Two-dimensional bidisperse foams were simulated in cyclic, uniaxial, extensional shear. Mixing of bu...
Experiments on a small cluster of bubbles in a nominally two-dimensional foam show an instability in...
The flow of a quasi-two-dimensional foam through a constriction is described. The bubble velocity an...
We use the Surface Evolver to determine the shear modulus G of a dry 2D foam of 2500 bubbles, using ...
Using the Surface Evolver software, we perform numerical simulations of point-like deformations in a...
A 2D foam can be characterised by its distribution of bubble areas, and of number of sides. Both dis...
Small cells in an experimental sample of two-dimensional foam, such as that which is contained betwe...