Resistive-force theory for mesh-like superhydrophobic surfaces
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Accepted version
Author(s)
Schnitzer, O
Yariv, Ehud
Type
Journal Article
Abstract
A common realization of superhydrophobic surfaces makes use of a mesh-like geometry, where pockets of air are trapped in a periodic array of holes in a no-slip solid substrate. We consider the small-solid-fraction limit where the ribs of the mesh are narrow. In this limit, we obtain a simple leading-order approximation for the slip-length tensor of an arbitrary mesh geometry. This approximation scales as the solid-fraction logarithm, as anticipated by Ybert et al. [Phys. Fluids
19, 123601 (2007)]; in the special case of a square mesh it agrees with the analytical results obtained by Davis & Lauga [Phys. Fluids
21, 113101 (2009)].
19, 123601 (2007)]; in the special case of a square mesh it agrees with the analytical results obtained by Davis & Lauga [Phys. Fluids
21, 113101 (2009)].
Date Issued
2018-03-13
Date Acceptance
2018-02-28
Citation
Physical Review Fluids, 2018, 3 (3)
ISSN
2469-990X
Publisher
American Physical Society
Journal / Book Title
Physical Review Fluids
Volume
3
Issue
3
Copyright Statement
© 2018 American Physical Society
Subjects
Science & Technology
Physical Sciences
Physics, Fluids & Plasmas
Physics
SMALL-SOLID-FRACTION
NO-SHEAR CONDITIONS
BUBBLE MATTRESS
STOKES-FLOW
SLIP
Publication Status
Published
Article Number
032201