Journal
APPLIED SURFACE SCIENCE
Volume 257, Issue 14, Pages 6264-6269Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.apsusc.2011.02.057
Keywords
Ice adhesion; Ice repellency; Superhydrophobicity; Ice adhesion strength; Roughness; Water condensation; Durability
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This article studies the anti-ice performance of several micro/nano-rough hydrophobic coatings with different surface chemistry and topography. The coatings were prepared by spin-coating or dip coating and used organosilane, fluoropolymer or silicone rubber as a top layer. Artificially created glaze ice, similar to the naturally accreted one, was deposited on the nanostructured surfaces by spraying supercooled water microdroplets (average size similar to 80 mu m) in a wind tunnel at subzero temperature (-10 degrees C). The ice adhesion strength was evaluated by spinning the samples in a centrifuge at constantly increasing speed until ice delamination occurred. The results show that the anti-icing properties of the tested materials deteriorate, as their surface asperities seem to be gradually broken during icing/de-icing cycles. Therefore, the durability of anti-icing properties appears to be an important point for further research. It is also shown that the anti-icing efficiency of the tested superhydrophobic surfaces is significantly lower in a humid atmosphere, as water condensation both on top and between surface asperities takes place, leading to high values of ice adhesion strength. This implies that superhydrophobic surfaces may not always be ice-phobic in the presence of humidity, which can limit their wide use as anti-icing materials. Crown Copyright (C) 2011 Published by Elsevier B. V. All rights reserved.
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