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Foam coarsening under a steady shear: interplay between bubble rearrangement and film thinning dynamics

Arnaud Saint‐Jalmes, Corentin Trégouët

2023Soft Matter12 citationsDOIOpen Access PDF

Abstract

') as a function of the applied shear rate. It turns out that the coarsening rate is strongly impacted by the applied shear: this rate is continuously reduced above a critical shear rate, which itself decreases with the bubble size. This coarsening-rate reduction is interpreted as the result of out-of-equilibrium and shear-dependent film thicknesses, being higher than at rest. The critical shear rate, above which films are dynamically sustained at higher thickness than at equilibrium, emerges from the competition between the rate of rearrangements and the time required to drain the thick film created during the rearrangement. We thus report here a first experimental proof and measurements of out-of-equilibrium film thicknesses within a sheared foam, and of the impact this has on coarsening.

Topics & Concepts

BubbleThinningShear thinningDynamics (music)Shear (geology)Materials scienceChemical physicsMechanicsChemistryComposite materialRheologyPhysicsEcologyBiologyAcousticsPickering emulsions and particle stabilizationEnhanced Oil Recovery TechniquesSurface Modification and Superhydrophobicity
Foam coarsening under a steady shear: interplay between bubble rearrangement and film thinning dynamics | Litcius