4.7 Article

Scaling maximum spreading of droplet impacting on flexible substrates

期刊

JOURNAL OF FLUID MECHANICS
卷 958, 期 -, 页码 -

出版社

CAMBRIDGE UNIV PRESS
DOI: 10.1017/jfm.2023.124

关键词

flow-structure interactions; drops; contact lines

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We numerically study the impact of a droplet on superhydrophobic flexible plates and find that the flexible substrate affects the maximum spreading of the droplet. The vertical movement and the change in average acceleration of the flexible substrate due to droplet impact lead to a reduction in the maximum spreading. Through theoretical analysis, we propose a scaling for the droplet's maximum spreading diameter ratio based on an effective Weber number that accounts for the substrate properties.
We numerically study the impact of a droplet on superhydrophobic flexible plates, aiming to understand how the flexible substrate influences the maximum spreading of the droplet. Compared with the rigid case, the vertical movement of the flexible substrate due to droplet impact reduces the maximum spreading. Besides, the average acceleration alpha during droplet spreading changes significantly. Arising from energy conservation, we rescale the acceleration alpha for cases with different bending stiffness K-B and mass ratio M-r. Moreover, through theoretical analysis, we propose a scaling for the droplet's maximum spreading diameter ratio beta(max). In the scaling, based on the derived alpha, an effective Weber number Wem is well defined, which accounts for the substrate properties without any adjustable parameters. In the (beta(max), We(m)) plane, the two-dimensional numerical results of different K-B, M-r and rigid cases all collapse into a single curve, as do the experimental and three-dimensional (3-D) results. In particular, the collapsed 3-D data can be well represented by the universal rescaling of beta(max) proposed by Lee et al. (J. Fluid Mech., vol. 786, 2016, R4). Furthermore, an a posteriori energy analysis confirms the validation of our a priori scaling law.

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