Litcius/Paper detail

Droplet lift-off from hydrophobic surfaces from impact with soft-hydrogel spheres

Rafsan Rabbi, Akihito Kiyama, John S. Allen, Tadd Truscott

2022Communications Physics12 citationsDOIOpen Access PDF

Abstract

Abstract Droplet impacts on superhydrophobic surfaces may result in complete bouncing, with the absence of contact hysteresis and viscous dissipation leading the droplet to fully rebound off the surface. This rebound usually happens in the retraction phase, when the droplet retracts back after reaching a maximum spread diameter. Here, we present experimental evidence of a bouncing phenomenon where a sessile droplet on a hydrophobic surface bounces off the surface in its spreading phase when a soft deformable hydrogel sphere axisymmetrically impacts the droplet. We term this as ‘Lift-Off’ and propose a simple force balance based on the deformation characteristics of the hydrogel sphere to explain the out-of-plane jump of the droplet during spreading. We observe three different impact regimes, and propose their dependency on a modified elastic ‘Mach’ number ( M a * ) with M a * ≈ 0.1 corresponding to the onset of lift-off. We also report on the unique acoustic signatures of lift-off cases, associated with the capture of air-bubbles through the air-borne retracting droplet rim. These results may have potential applications for drainage and surface cleaning, non-stick surface coating, industrial mixing and plant disease spreading.

Topics & Concepts

MechanicsLift (data mining)Materials scienceSPHERESDissipationSurface tensionPhysicsThermodynamicsData miningComputer scienceAstronomyFluid Dynamics and Heat TransferSurface Modification and SuperhydrophobicityPlant Surface Properties and Treatments