Robust and self-healing superhydrophobic aluminum surface with excellent anti-icing performance

Icing on the transmission line can cause disastrous consequence. At present, a lot of research has been conducted on related anti-icing technologies such as superhydrophobic surface (SHS). However, the application of SHS was limited by the poor durability. In this work, a durable superhydrophobic su...

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Published in:Surfaces and interfaces 2022-02, Vol.28, p.101588, Article 101588
Main Authors: Liu, G.Y., Yuan, Y., Liao, R.J., Xiang, H.Y., Wang, L., Yu, Q., Zhang, C.
Format: Article
Language:English
Subjects:
Anti-icing
Durability
Porous anodic aluminum oxide
Self-healing
Superhydrophobic
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container_end_page
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container_start_page 101588
container_title Surfaces and interfaces
container_volume 28
creator Liu, G.Y.
Yuan, Y.
Liao, R.J.
Xiang, H.Y.
Wang, L.
Yu, Q.
Zhang, C.
description Icing on the transmission line can cause disastrous consequence. At present, a lot of research has been conducted on related anti-icing technologies such as superhydrophobic surface (SHS). However, the application of SHS was limited by the poor durability. In this work, a durable superhydrophobic surface with an outstanding anti-icing property has been prepared via combining anodization and infusion of healing agent fluoroalkylsilane (FAS-17). The as-prepared SHS can efficiently prevent the icing process in glaze ice due to the effective repelling of the cooled water droplets at -8 °C. Beside, excellent anti-frosting performance has also been gained due to the self-transfer movement of condensation droplets. Furthermore, the as-prepared SHS surface can heal its superhydrophobicity after 8 times oxygen plasma or 64 times (7.68 m) of abrasion damage under the pressure of 12 kPa. The self-healing ability shows good stability even being heated at 80 °C after 30 days. The findings could provide developed insights into the design of high-performance anti-icing SHS based on the porous structure construction and self-healing modification.
doi_str_mv 10.1016/j.surfin.2021.101588
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subjects Anti-icing
Durability
Porous anodic aluminum oxide
Self-healing
Superhydrophobic
title Robust and self-healing superhydrophobic aluminum surface with excellent anti-icing performance
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