Abstract
When a low-viscosity drop coalesces with a pool surface of the same liquid, it often portrays partial coalescence, where it pinches off a daughter droplet from its top. Such partial coalescence can also occur for a drop spreading on a strongly hydrophilic solid surface. Herein, we investigate the partial coalescence of a low-viscosity drop with a pool surface, when the viscosity of the miscible pool is changed from low to very high, in other words, spanning the conditions from a pool to a solid surface. We find that above a certain pool viscosity, the partial coalescence transitions to second-stage coalescence with a much smaller satellite droplet. This occurs because higher pool viscosity prevents drainage from the drop into the pool, which, in turn, increases the axial curvature in the neck connecting the primary satellite to the drop, thereby preventing the first-stage pinch-off.
Highlights
The coalescence of a drop with a pool surface is a primary mechanism in the coarsening of emulsions
We study the partial coalescence of these drops with liquid pools of different but miscible silicone oils, which have a wide range of higher pool viscosities
We have studied the partial coalescence of a drop at a pool surface, when the viscosity of the pool is increased, while the two liquids remain miscible
Summary
The coalescence of a drop with a pool surface is a primary mechanism in the coarsening of emulsions. Starting from a uniform distribution of heavier droplets inside a continuous phase, the repeated droplet coalescences will eventually form a bottom pool of the distributed phase onto which individual droplets will settle and coalesce. Following the drainage of the intervening fluid film, the drop makes contact with the pool surface forming a neck with sharp axial curvature, where the surface tension drives rapid radial motions. This forms a capillary wave that travels up the drop, stretching its apex upward, often leading to the pinch-off of a satellite. We call the original droplet the mother drop and the pinched-off satellite drop the daughter droplet of diameters Dm and Ds, respectively
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