Viscous drops rolling on a tilted non-wettable solid

D. Richard; D. Quéré

doi:10.1209/epl/i1999-00479-1

Viscous drops rolling on a tilted non-wettable solid

D. Richard
, D. Quéré

École Polytechnique

Centre national de la recherche scientifique

Research output: Contribution to journal › Article › peer-review

Abstract

A viscous liquid drop sliding down an inclined solid that it partially wets runs all the faster since it is large. Here we examine what happens in the limit of very high contact angles, on a so-called super-hydrophobic surface. It is shown that a droplet rolls instead of sliding, which leads to a surprising law for the velocity as a function of the drop radius: the smaller the droplet, the larger the running velocity. A recent model of Mahadevau and Pomeau allows us to propose an explanation for this paradoxical behaviour.

Original language	English
Pages (from-to)	286-291
Number of pages	6
Journal	EPL
Volume	48
Issue number	3
DOIs	https://doi.org/10.1209/epl/i1999-00479-1
Publication status	Published - 1 Nov 1999

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abstract = "A viscous liquid drop sliding down an inclined solid that it partially wets runs all the faster since it is large. Here we examine what happens in the limit of very high contact angles, on a so-called super-hydrophobic surface. It is shown that a droplet rolls instead of sliding, which leads to a surprising law for the velocity as a function of the drop radius: the smaller the droplet, the larger the running velocity. A recent model of Mahadevau and Pomeau allows us to propose an explanation for this paradoxical behaviour.",

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AB - A viscous liquid drop sliding down an inclined solid that it partially wets runs all the faster since it is large. Here we examine what happens in the limit of very high contact angles, on a so-called super-hydrophobic surface. It is shown that a droplet rolls instead of sliding, which leads to a surprising law for the velocity as a function of the drop radius: the smaller the droplet, the larger the running velocity. A recent model of Mahadevau and Pomeau allows us to propose an explanation for this paradoxical behaviour.

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Viscous drops rolling on a tilted non-wettable solid

Abstract

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