THESIS 7587This thesis explores the physics of foams, particularly those that are wet (i.e. have a high liquid fraction). The properties which are measured here relate to structure, drainage and rheology. We have performed the first published Stokes experiment in a foam [41 ]. and compared results with estimates derived from the Herschel-Bulkley model for rheology. The first extensive, systematic experiments on drainage driven instabilities reveal aspects hitherto unreported, including hysteresis and the existence of a cylindrically symmetric case. We offer a preliminary theoretical analysis of the case in w hich the column is tilted. Other new results relate to the structure of finite 2D clusters [93]
Using a shear cell device, we have studied four associated problems in foam by experiments: Bubble-b...
THESIS 10834This thesis concerns the structure and flow properties of wet foams. We primarily use co...
The use of a column of steadily drained foam as a sample of wet foam is limited by flow instability ...
We review recent progress concerning an understanding of the rheological properties of foams, both i...
Forced drainage describes the procedure in which liquid is added to a column of foam at a constant f...
International audienceAqueous foams are complex fluids composed of gas bubbles tightly packed in a s...
Aqueous foams are viscoelastic yield stress fluids. Due to their complex rheology, foam flow around ...
We survey simulations of two-dimensional flowing foam inspired by recent illuminating experiments. W...
A theoretical model for foam rheology that includes viscous forces is developed by considering the d...
This thesis concerns the response of two-dimensional foams to applied shear based on numerical simul...
Foam drainage describes the flow of liquid through a foam, driven by gravity and capillarity. It is ...
We introduce new mechanisms for the onset of convective motion in loaded 3D foams. This is done by b...
Liquid foam is an example of soft matter (or a complex fluid) with a very well-defined structure, fi...
The shear rheology of two-dimensional foam is investigated over a range of shear rates with the nume...
We study the effect of the experimental set-up on the structure and rheology of two-dimensional foam...
Using a shear cell device, we have studied four associated problems in foam by experiments: Bubble-b...
THESIS 10834This thesis concerns the structure and flow properties of wet foams. We primarily use co...
The use of a column of steadily drained foam as a sample of wet foam is limited by flow instability ...
We review recent progress concerning an understanding of the rheological properties of foams, both i...
Forced drainage describes the procedure in which liquid is added to a column of foam at a constant f...
International audienceAqueous foams are complex fluids composed of gas bubbles tightly packed in a s...
Aqueous foams are viscoelastic yield stress fluids. Due to their complex rheology, foam flow around ...
We survey simulations of two-dimensional flowing foam inspired by recent illuminating experiments. W...
A theoretical model for foam rheology that includes viscous forces is developed by considering the d...
This thesis concerns the response of two-dimensional foams to applied shear based on numerical simul...
Foam drainage describes the flow of liquid through a foam, driven by gravity and capillarity. It is ...
We introduce new mechanisms for the onset of convective motion in loaded 3D foams. This is done by b...
Liquid foam is an example of soft matter (or a complex fluid) with a very well-defined structure, fi...
The shear rheology of two-dimensional foam is investigated over a range of shear rates with the nume...
We study the effect of the experimental set-up on the structure and rheology of two-dimensional foam...
Using a shear cell device, we have studied four associated problems in foam by experiments: Bubble-b...
THESIS 10834This thesis concerns the structure and flow properties of wet foams. We primarily use co...
The use of a column of steadily drained foam as a sample of wet foam is limited by flow instability ...