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Anti-icing performance and durability of suspension plasma sprayed TiO2 coatings4

Title:

Anti-icing performance and durability of suspension plasma sprayed TiO2 coatings4

Sharifi, Navid, Dolatabadi, Ali ORCID: https://orcid.org/0000-0001-6416-351X, Pugh, Martin and Moreau, Christian (2018) Anti-icing performance and durability of suspension plasma sprayed TiO2 coatings4. Cold Regions Science and Technology . ISSN 0165232X (In Press)

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Official URL: http://dx.doi.org/10.1016/j.coldregions.2018.11.01...

Abstract

Superhydrophobic coatings are a potential solution for mitigating the in-flight icing problem for aircraft. However, to develop a superhydrophobic coating which can be practically used for aircraft and that possesses sufficient durability is an ongoing challenge. In this work, superhydrophobic coatings are developed using suspension plasma spraying (SPS) as a flexible, versatile and scalable coating technique. The anti-icing and deicing performances of these SPS coatings are studied in icing wind tunnel experiments. Furthermore, the durability of these SPS coatings is tested in dry particle and cloud-sized water droplet erosion and icing/deicing cyclic tests. The capability of SPS superhydrophobic coatings to reduce ice accretion is comparable to that of commercial superhydrophobic coatings but perform better in deicing tests using heating. Additionally, compared to commercial superhydrophobic coatings, the SPS coatings demonstrate significantly better performance in dry particle and icing/deicing cyclic tests while showing comparable durability in cloud-sized water droplet erosion tests. It is also shown that in case of high intensity water erosion, when the superhydrophobicity of SPS coatings deteriorates, it can be restored using a simple and quick retreatment process due to the robustness of the hierarchical micro-textured TiO2 base coatings.

Divisions:Concordia University > Gina Cody School of Engineering and Computer Science > Building, Civil and Environmental Engineering
Item Type:Article
Refereed:Yes
Authors:Sharifi, Navid and Dolatabadi, Ali and Pugh, Martin and Moreau, Christian
Journal or Publication:Cold Regions Science and Technology
Date:3 December 2018
Funders:
  • Natural Science and Engineering Research Council of Canada (NSERC)
  • Consortium for Aerospace Research and Innovation in Canada (CARIC
  • Canada and EU partnership project Phobic2Ice
  • Canada Research Chairs Program
Digital Object Identifier (DOI):10.1016/j.coldregions.2018.11.018
Keywords:Superhydrophobic coating; Suspension plasma spray; Icing; Durability
ID Code:984748
Deposited By: MONIQUE LANE
Deposited On:07 Dec 2018 14:07
Last Modified:07 Dec 2018 14:07

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