Onset of rebound suppression in non Newtonian droplets post impact on superhydrophobic surfaces
Purbarun Dhar, Soumya Ranjan Mishra, Devranjan Samanta

TL;DR
This study investigates how polymer concentration and impact velocity influence droplet rebound suppression on superhydrophobic surfaces, identifying the Weissenberg number as a key parameter for rebound arrest.
Contribution
It introduces a critical Weissenberg number criterion that unifies elastic effects and hydrodynamics in predicting rebound suppression in non-Newtonian droplets.
Findings
Rebound suppression depends on polymer concentration and impact velocity.
A critical Weissenberg number determines the onset of rebound arrest.
Elastic effects are central to droplet rebound dynamics.
Abstract
Droplet deposition after impact on superhydrophobic surfaces has been an important area of study in recent years due to its potential application in reduction of pesticides usage. Minute amounts of long chain polymers added to water has been known to arrest the droplet rebound effect on superhydrophobic surfaces. Previous studies have attributed different reasons like extensional viscosity, dominance of elastic stresses or slowing down of contact line in retraction phase due to stretching of polymer chains. The present study attempts to unravel the existence of critical criteria of polymer concentration and impact velocity on the inhibition of droplet rebound. The impact velocity will indirectly influence the shear rate during the retraction phase, and the polymer concentration dictates the relaxation timescale of the elastic fluids. Finally we show that the Weissenberg number (at onset…
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