Liquid Spreading on Superhydrophilic Micropillar Arrays
슈퍼관리자
2021-05-21
Liquid Spreading on Superhydrophilic Micropillar Arrays
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Authors :
Seong Jin Kim, Myoung-Woon Moon, Kwang-Ryeol Lee, Dae-Young Lee, Young Soo Chang, and Ho-Young Kim
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Journal :
J. Fluid Mech.
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Vol :
680
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Page :
477-487
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Year :
2011
Abstract
When a drop is deposited on a superhydrophilic micropillar array, the upper part of the drop (referred to as the bulk) collapses while the bottom part penetrates into the gaps of the array, forming a fringe film. Here we quantify the early stage dynamics of this process using a combination of experiment and theory. We show that the circular front of the fringe film spreads like t1/2, t being time, when coupled to the bulk flow. However, the film is found to advance like t1/3 through faceted zippering in the absence of the bulk. We then show that the spreading of the bulk and the entire drop footprint follows a power law (t1/4) that is different from Washburn's law. This work can be a starting point to completely understand the spreading of liquids on superhydrophilic surfaces and opens questions specific to superwetting behaviour including the criteria to determine whether the fringe film will expand through lateral zipping or advance radially outwards.