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The impact of liquid droplets onto a film of an immiscible liquid is studied experimentally across a broad range of parameters [ $$Re = O(10^{1}-10^{3})$$ R e = O ( 10 1 - 10 3 ) , $$We = O(10^{2}-10^{3})$$ W e = O ( 10 2 - 10 3 ) ] with the aid of high-speed photography and image analysis. Above a critical impact parameter, $$Re^{1/2}We^{1/4} \approx 100$$ R e 1 / 2 W e 1 / 4 ≈ 100 , the droplet fragments into multiple satellite droplets, which typically occurs as the result of a fingering instability. Statistical analysis indicates that the satellite droplets are approximately log-normally distributed, in agreement with some previous studies and the theoretical predictions of Wu (Prob Eng Mech 18:241–249, 2003). However, in contrast to a recent study by Lhuissier et al. (Phys Rev Lett 110:264503, 2013), we find that it is the modal satellite diameter, not the mean diameter, that scales inversely with the impact speed (or Weber number) and that the dependence is $$d_\mathrm{{mod}} \sim We^{-1/4}$$ d mod ∼ W e - 1 / 4 .
Experiments in Fluids – Springer Journals
Published: Nov 29, 2017
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