Cassie–Baxter to Wenzel state wetting transition: a 2D numerical simulation - Archive ouverte HAL
Journal Articles RSC Advances Year : 2013

Cassie–Baxter to Wenzel state wetting transition: a 2D numerical simulation

Abstract

We simulate in two dimensions the wetting behavior of a liquid droplet placed on a solid surface structured by a regular distribution of pillars. For this purpose, as in a recent study, we used the Potts Hamiltonian formalism. We focused our investigations on the transition between the wetting regimes characteristic of the super-repellent property of our surfaces. We determined several physical variables influencing such a property and we also built the wetting phase diagrams of which two different states and a transition zone were identified. The transition happens between a Cassie–Baxter state (CB) and the Wenzel state. We also show that the wetting transition is affected by fluctuations and liquid compressibility.
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Dates and versions

hal-03014217 , version 1 (19-11-2020)

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Daisiane M. Lopes, Stella M.M. Ramos, Luciana R. de Oliveira, José C.M. Mombach. Cassie–Baxter to Wenzel state wetting transition: a 2D numerical simulation. RSC Advances, 2013, 3 (46), pp.24530. ⟨10.1039/C3RA45258A⟩. ⟨hal-03014217⟩
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