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Paper detail

Impact forces of water drops falling on superhydrophobic surfaces

A falling liquid drop, after impact on a rigid substrate, deforms and spreads, owing to the normal reaction force. Subsequently, if the substrate is non-wetting, the drop retracts and then jumps off. As we show here, not only is the impact itself associated with a distinct peak in the temporal evolution of the normal force, but also the jump-off, which was hitherto unknown. We characterize both peaks and elucidate how they relate to the different stages of the drop impact process. The time at which the second peak appears coincides with the formation of a Worthington jet, emerging through flow-focusing, and it is independent of the impact velocity. However, the magnitude of this peak is dictated by the drop's inertia and surface tension. We show that even low-velocity impacts can lead to a surprisingly high peak in the normal force, namely when a more pronounced singular Worthington jet occurs due to the collapse of an air cavity in the drop.

preprint2022arXivOpen access
Bin ZhangVatsal SanjaySonglin ShiYinggang ZhaoCunjing LvXi-QiaoDetlef Lohse
cond-mat.softphysics.flu-dyn
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Bin ZhangVatsal SanjaySonglin ShiYinggang ZhaoCunjing LvXi-QiaoDetlef Lohse

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