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Main Authors: Teixeira, Miguel A. C., Arscott, Steve, Cox, Simon J., Teixeira, Paulo I. C.
Format: Preprint
Published: 2017
Subjects:
Online Access:https://arxiv.org/abs/1710.01102
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author Teixeira, Miguel A. C.
Arscott, Steve
Cox, Simon J.
Teixeira, Paulo I. C.
author_facet Teixeira, Miguel A. C.
Arscott, Steve
Cox, Simon J.
Teixeira, Paulo I. C.
contents By integrating the Young-Laplace equation, including the effects of gravity, we have calculated the equilibrium shape of the two-dimensional Plateau borders along which a vertical soap film contacts two flat, horizontal solid substrates of given wettability. We show that the Plateau borders, where most of a foam's liquid resides, can only exist if the values of the Bond number ${\rm Bo}$ and of the liquid contact angle $θ_c$ lie within certain domains in $(θ_c,{\rm Bo})$ space: under these conditions the substrate is foam-philic. For values outside these domains, the substrate cannot support a soap film and is foam-phobic. In other words, on a substrate of a given wettability, only Plateau borders of a certain range of sizes can form. For given $(θ_c,{\rm Bo})$, the top Plateau border can never have greater width or cross-sectional area than the bottom one. Moreover, the top Plateau border cannot exist in a steady state for contact angles above 90$^\circ$. Our conclusions are validated by comparison with both experimental and numerical (Surface Evolver) data. We conjecture that these results will hold, with slight modifications, for non-planar soap films and bubbles. Our results are also relevant to the motion of bubbles and foams in channels, where the friction force of the substrate on the Plateau borders plays an important role.
format Preprint
id arxiv_https___arxiv_org_abs_1710_01102
institution arXiv
publishDate 2017
record_format arxiv
spellingShingle When is a surface foam-phobic or foam-philic?
Teixeira, Miguel A. C.
Arscott, Steve
Cox, Simon J.
Teixeira, Paulo I. C.
Soft Condensed Matter
By integrating the Young-Laplace equation, including the effects of gravity, we have calculated the equilibrium shape of the two-dimensional Plateau borders along which a vertical soap film contacts two flat, horizontal solid substrates of given wettability. We show that the Plateau borders, where most of a foam's liquid resides, can only exist if the values of the Bond number ${\rm Bo}$ and of the liquid contact angle $θ_c$ lie within certain domains in $(θ_c,{\rm Bo})$ space: under these conditions the substrate is foam-philic. For values outside these domains, the substrate cannot support a soap film and is foam-phobic. In other words, on a substrate of a given wettability, only Plateau borders of a certain range of sizes can form. For given $(θ_c,{\rm Bo})$, the top Plateau border can never have greater width or cross-sectional area than the bottom one. Moreover, the top Plateau border cannot exist in a steady state for contact angles above 90$^\circ$. Our conclusions are validated by comparison with both experimental and numerical (Surface Evolver) data. We conjecture that these results will hold, with slight modifications, for non-planar soap films and bubbles. Our results are also relevant to the motion of bubbles and foams in channels, where the friction force of the substrate on the Plateau borders plays an important role.
title When is a surface foam-phobic or foam-philic?
topic Soft Condensed Matter
url https://arxiv.org/abs/1710.01102