Equilibrium contact angle at the wetted substrate

We construct a novel model for the steady-state contact angles of liquid droplets at the wetted substrate. The non-removable, thin liquid film covering the substrate is governed by the intermolecular forces between molecules of liquid and solid, which we describe using the standard disjoining pressure approximation. Balancing the disjoining pressure against the surface tension, we find the smooth shape of the surface of the liquid. We show that we can extract an effective contact angle from the region where the film and the droplet meet. Crucially, we find that for large droplets the contact angle is independent of the droplet size. Instead, the contact angle is determined by the surface tension and the disjoining pressure parameters through a simple formula that works for both small and large contact angles. We suggest that comparing predictions of our model to experimentally measure contact angles will enable constraining the parameters of the disjoining pressure models. Published under an exclusive license by AIP Publishing.

Automated summary

In this study, a novel model is constructed to describe the steady-state contact angles of liquid droplets on a wetted substrate. The model utilizes the standard disjoining pressure approximation to balance the intermolecular forces and surface tension, resulting in a smooth liquid surface shape. It is found that for large droplets, the contact angle is independent of droplet size and can be determined by the surface tension and disjoining pressure parameters through a simple formula.