Enhanced dip-coating on a soft substrate

ORAL

Abstract


A solid, withdrawn from a liquid bath, entrains a thin liquid film. This simple process, initially discussed by Landau and Levich, can be observed in everyday's life and is widely used in industry for surface coating purposes. Nevertheless, the height of fluid entrained can be altered by various properties of the withdrawn solid. Here, we develop a novel model that includes a thin coating on a plate. For simplicity, a Winkler's foundation is assumed for the elastic response. A new power-law regime is found for the height of fluid entrained $h \sim \sqrt{l_{cap} l_{ec}}Ca^{1/2}$ (where $Ca$ denotes the capillary number, $l_{cap}$ the capillary length and $l_{ec}$ an elastocapillary length) at small capillary numbers. At large $Ca$, the Landau-Levich scaling laws $h \sim l_{cap} Ca^{2/3}$ is recovered. The transition occurs when the substrate's deformation becomes comparable to the thickness of the entrained film. Finally, using this model, we discuss recent experimental results.

Presenters

  • Vincent Bertin

    • Gulliver, UMR CNRS 7083, ESPCI

Authors

  • Vincent Bertin

    • Gulliver, UMR CNRS 7083, ESPCI

  • Manon Marchand

    • LPS - UMR 8502 CRNS Université Paris Saclay

  • Christophe Poulard

    • LPS - UMR 8502 CRNS Université Paris Saclay

  • Elie Raphael

    • Laboratoire de Physico-Chimie Theorique Gulliver, ESPCI Paris
    • ESPCI
    • Laboratoire de Physico-Chimie Théorique Gulliver, ESPCI Paris
    • Gulliver, UMR CNRS 7083, ESPCI

  • Frederic Restagno

    • LPS - UMR 8502 CRNS Université Paris Saclay

  • Emmanuelle Rio

    • LPS - UMR 8502 CRNS Université Paris Saclay

  • Thomas Salez

    • LOMA University of Bordeaux
    • University of Bordeaux

  • François Boulogne

    • LPS - UMR 8502 CRNS Université Paris Saclay