posted on 2022-02-01, 18:08authored byMohamadreza Beitollahpoor, Melika Farzam, Noshir S. Pesika
Superhydrophobic
surfaces have attracted considerable attention
because of their unique water-repellency and their wide range of applications.
The conventional method to characterize the surface wetting properties
of surfaces, including superhydrophobic surfaces, relies on measuring
static and dynamic contact angles, and sliding angles of water drops.
However, because of the inhomogeneities inherently present on surfaces
(smooth and textured), such optical methods can result in relatively
large variability in sliding angle measurements. In this work, by
using a force-based technique with ±1 μN sensitivity, the
friction force between water drops and various surfaces is measured.
The friction force can then be used to accurately predict the sliding
angle of water drops of various sizes with improved consistency. We
also show that the measured friction force can be used to determine
the critical drop size below which a water drop is not expected to
slide even at a tilt angle of 90°. The proposed technique to
characterize the wetting properties of surfaces has a higher accuracy
(between 15% and 65%, depending on the surface) compared to optical
methods.