Publikation: Dynamical theory of the inverted cheerios effect
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2017
Autor:innen
Pandey, Anupam
Lubbers, Luuk A.
Weijs, Joost H.
Botto, Lorenzo
Das, Siddhartha
Andreotti, Bruno
Snoeijer, Jacco H.
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Soft Matter. Royal Society of Chemistry (RSC). 2017, 13(35), pp. 6000-6010. ISSN 1744-683X. eISSN 1744-6848. Available under: doi: 10.1039/c7sm00690j
Zusammenfassung
Recent experiments have shown that liquid drops on highly deformable substrates exhibit mutual interactions. This is similar to the Cheerios effect, the capillary interaction of solid particles at a liquid interface, but now the roles of solid and liquid are reversed. Here we present a dynamical theory for this inverted Cheerios effect, taking into account elasticity, capillarity and the viscoelastic rheology of the substrate. We compute the velocity at which droplets attract, or repel, as a function of their separation. The theory is compared to a simplified model in which the viscoelastic dissipation is treated as a localized force at the contact line. It is found that the two models differ only at small separation between the droplets, and both of them accurately describe experimental observations.
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PANDEY, Anupam, Stefan KARPITSCHKA, Luuk A. LUBBERS, Joost H. WEIJS, Lorenzo BOTTO, Siddhartha DAS, Bruno ANDREOTTI, Jacco H. SNOEIJER, 2017. Dynamical theory of the inverted cheerios effect. In: Soft Matter. Royal Society of Chemistry (RSC). 2017, 13(35), pp. 6000-6010. ISSN 1744-683X. eISSN 1744-6848. Available under: doi: 10.1039/c7sm00690jBibTex
@article{Pandey2017Dynam-67148,
year={2017},
doi={10.1039/c7sm00690j},
title={Dynamical theory of the inverted cheerios effect},
number={35},
volume={13},
issn={1744-683X},
journal={Soft Matter},
pages={6000--6010},
author={Pandey, Anupam and Karpitschka, Stefan and Lubbers, Luuk A. and Weijs, Joost H. and Botto, Lorenzo and Das, Siddhartha and Andreotti, Bruno and Snoeijer, Jacco H.}
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<dcterms:abstract>Recent experiments have shown that liquid drops on highly deformable substrates exhibit mutual interactions. This is similar to the Cheerios effect, the capillary interaction of solid particles at a liquid interface, but now the roles of solid and liquid are reversed. Here we present a dynamical theory for this inverted Cheerios effect, taking into account elasticity, capillarity and the viscoelastic rheology of the substrate. We compute the velocity at which droplets attract, or repel, as a function of their separation. The theory is compared to a simplified model in which the viscoelastic dissipation is treated as a localized force at the contact line. It is found that the two models differ only at small separation between the droplets, and both of them accurately describe experimental observations.</dcterms:abstract>
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