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Universal non-monotonic drainage in large bare viscous bubbles

Casey Bartlett, Alexandros T. Oratis, Matthieu Santin, James Bird

2023Nature Communications17 citationsDOIOpen Access PDF

Abstract

Bubbles will rest at the surface of a liquid bath until their spherical cap drains sufficiently to spontaneously rupture. For large film caps, the memory of initial conditions is believed to be erased due to a visco-gravitational flow, whose velocity increases from the top of the bubble to its base. Consequently, the film thickness has been calculated to be relatively uniform as it thins, regardless of whether the drainage is regulated by shear or elongation. Here, we demonstrate that for large bare bubbles, the film thickness is highly nonuniform throughout drainage, spanning orders of magnitude from top to base. We link the film thickness profile to a universal non-monotonic drainage flow that depends on the bubble thinning rate. These results highlight an unexpected coupling between drainage velocity and bubble thickness profiles and provide critical insight needed to understand the retraction and breakup dynamics of these bubbles upon rupture.

Topics & Concepts

BreakupBubbleMechanicsDrainageMonotonic functionMaterials scienceRest (music)Flow (mathematics)GeologyPhysicsMathematicsMathematical analysisAcousticsEcologyBiologyEnhanced Oil Recovery TechniquesFluid Dynamics and MixingFluid Dynamics and Heat Transfer
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