Issue 45, 2021

Gradient-dynamics model for liquid drops on elastic substrates

Abstract

The wetting of soft elastic substrates exhibits many features that have no counterpart on rigid surfaces. Modelling the detailed elastocapillary interactions is challenging, and has so far been limited to single contact lines or single drops. Here we propose a reduced long-wave model that captures the main qualitative features of statics and dynamics of soft wetting, but which can be applied to ensembles of droplets. The model has the form of a gradient dynamics on an underlying free energy that reflects capillarity, wettability and compressional elasticity. With the model we first recover the double transition in the equilibrium contact angles that occurs when increasing substrate softness from ideally rigid towards very soft (i.e., liquid). Second, the spreading of single drops of partially and completely wetting liquids is considered showing that known dependencies of the dynamic contact angle on contact line velocity are well reproduced. Finally, we go beyond the single droplet picture and consider the coarsening for a two-drop system as well as for a large ensemble of drops. It is shown that the dominant coarsening mode changes with substrate softness in a nontrivial way.

Graphical abstract: Gradient-dynamics model for liquid drops on elastic substrates

Supplementary files

Article information

Article type
Paper
Submitted
14 Jul 2021
Accepted
21 Oct 2021
First published
29 Oct 2021

Soft Matter, 2021,17, 10359-10375

Gradient-dynamics model for liquid drops on elastic substrates

C. Henkel, J. H. Snoeijer and U. Thiele, Soft Matter, 2021, 17, 10359 DOI: 10.1039/D1SM01032H

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