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Advisor(s)
Abstract(s)
The surface wettability has a significant influence on the morphology and spreading behaviorduring droplet impacts on dry smooth walls. On the way for predicting spreading diameters independency of the wetting behavior, the experimental database was extended by an experi-mental study in which distilled water and isopropanol droplets have impacted onto dry smoothLexan®(Polycarbonate) surfaces at four different impact velocities. The range of Reynoldsnumbers was set between1,135and12,240and for the Weber number between80and1,165.The surface material, and thus also the characteristic surface roughness, were kept constant,while the wetting behavior was modified using plasma activation and plasma polymerizationprocesses. Different contact angles have been investigated in a range from full wetting to non-wetting for water and from full wetting to partial wetting for isopropanol. The experiments havebeen conducted on a newly designed test rig. High-speed diffuse backlight images at20 kHzfrom the top and the lateral perspective are acquired on a shared CMOS-sensor simultane-ously. A bottom perspective in a total internal reflection configuration is acquiring the footprintof the droplet impact. This enables to better define the maximum spreading diameter and todistinguish between wetted and non-wetted areas.
Description
Keywords
Wetting behavior Apparent contact angle Droplet spreading High-speed imaging Plasma processes
Citation
Patrick Foltyn, Daniela Ribeiro, André Silva, Grazia Lamanna, Bernhard Weigand Effect of Surface Wettability on the Droplet Impact Morphologies on Dry Smooth Polycarbonate Surfaces ICLASS 2021 - 15th Triennial International Conference on Liquid Atomization and Spray Systems, Edimburgo, Reino Unido, 29 Agosto - 2 Setembro, 2021
Publisher
University of Edinburgh Journal Hosting Service