We investigate the formation of fingering patterns in a radial Hele-Shaw cell filled with quasi-two-dimensional polydisperse foam of very small liquid content. Air is used as the low-viscosity driving fluid. Using high speed imaging (up to 2000fps), we directly observe the topological rearrangements on the size scale of single bubbles at the air-foam interface. We find that the growth process of the finger can be discretized as successive elementary T1-type edge exchanges between neighboring bubbles at the interface of the advancing finger. Apart from the rate of T1 events, other statistical quantities can be determined with good spatial resolution using a coordinate system moving with the finger. Measures of local bubble anisotropy (such a...
We study the fingering instability of a circular interface between two immiscible liquids in a radia...
The Foam Optics and Mechanics (FOAM) project will exploit the microgravity environment to more accur...
Aqueous foams are viscoelastic yield stress fluids. Due to their complex rheology, foam flow around ...
We investigate pattern formation in the immiscible displacement of foam from a confining geometry. T...
International audienceThe response of a two-dimensional liquid foam to a localized air injection is ...
This thesis concerns the response of two-dimensional foams to applied shear based on numerical simul...
Foam is solid-like under low stress and liquid-like under high stress. It can sustain a small load e...
International audienceThe 2D flow of a foam confined in a Hele-Shaw cell through a contraction is in...
We study the viscous fingering instability in a radial Hele-Shaw cell in which the top boundary has...
A theoretical model for foam rheology that includes viscous forces is developed by considering the d...
Viscous fingering occurs when a less viscous fluid is driven into a more viscous fluid in a porous ...
Using a shear cell device, we have studied four associated problems in foam by experiments: Bubble-b...
International audienceWe report experiments where a viscoelastic fingering instability develops at t...
In rheological terms, foams are time independent yield stress fluids, displaying properties of both ...
We re-analyse experiments on a foam sheared in a two-dimensional Couette geometry [Debrégeas et al.,...
We study the fingering instability of a circular interface between two immiscible liquids in a radia...
The Foam Optics and Mechanics (FOAM) project will exploit the microgravity environment to more accur...
Aqueous foams are viscoelastic yield stress fluids. Due to their complex rheology, foam flow around ...
We investigate pattern formation in the immiscible displacement of foam from a confining geometry. T...
International audienceThe response of a two-dimensional liquid foam to a localized air injection is ...
This thesis concerns the response of two-dimensional foams to applied shear based on numerical simul...
Foam is solid-like under low stress and liquid-like under high stress. It can sustain a small load e...
International audienceThe 2D flow of a foam confined in a Hele-Shaw cell through a contraction is in...
We study the viscous fingering instability in a radial Hele-Shaw cell in which the top boundary has...
A theoretical model for foam rheology that includes viscous forces is developed by considering the d...
Viscous fingering occurs when a less viscous fluid is driven into a more viscous fluid in a porous ...
Using a shear cell device, we have studied four associated problems in foam by experiments: Bubble-b...
International audienceWe report experiments where a viscoelastic fingering instability develops at t...
In rheological terms, foams are time independent yield stress fluids, displaying properties of both ...
We re-analyse experiments on a foam sheared in a two-dimensional Couette geometry [Debrégeas et al.,...
We study the fingering instability of a circular interface between two immiscible liquids in a radia...
The Foam Optics and Mechanics (FOAM) project will exploit the microgravity environment to more accur...
Aqueous foams are viscoelastic yield stress fluids. Due to their complex rheology, foam flow around ...