Remko Dijkstra scite author profile

We present fluid dynamics videos illustrating wetting splashingproduced by water drop impact onto hydrophobic microstructures at high impact velocity (∼ 3 ms −1 ). The substrate consists of regular and transparent microtextures in square or hexagonal lattice, yielding a high contact angle of ∼ 150 • . Our high speed top-or-bottom view recordings through the transparent surface shed light on the solidliquid-air interfaces at impact. Despite the superhydrophobicity of the latticed micropillars (of a periodicity of 10 µm), water droplet wets a certain central area and moreover entraps an air bubble beneath the droplet. Besides the central wet area, lamella surf on air splashing outward at high impinging velocity. The effects of micropatterns and air pressure on the impact outcome are also examined. We show that microscopic boundary condition, imposed by the solid texture, profoundly influences the macroscopic flow dynamics upon superhydrophobic surfaces at high impinging velocity. In addition, the intervening air between the liquid and the solid plays a crucial role in directional splash, which can be eliminated by a reduced air pressure.

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Remko Dijkstra

Microscopic structure influencing macroscopic splash at high Weber number

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Wetting Splashing

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