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Durability of Superamphiphobic Polyester Fabrics in Simulated Aerodynamic Icing Conditions

Laroche, Alexandre ; Ritzen, Linda ; Guillén Mayén, Javier Alejandro ; Vercillo, Vittorio ; D’Acunzi, Maria ; Sharifi Aghili, Azadeh ; Hussong, Jeanette ; Vollmer, Doris ; Bonaccurso, Elmar (2022)
Durability of Superamphiphobic Polyester Fabrics in Simulated Aerodynamic Icing Conditions.
In: Coatings, 2022, 10 (11)
doi: 10.26083/tuprints-00017431
Article, Secondary publication, Publisher's Version

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Item Type: Article
Type of entry: Secondary publication
Title: Durability of Superamphiphobic Polyester Fabrics in Simulated Aerodynamic Icing Conditions
Language: English
Date: 9 February 2022
Place of Publication: Darmstadt
Year of primary publication: 2022
Publisher: MDPI
Journal or Publication Title: Coatings
Volume of the journal: 10
Issue Number: 11
Collation: 18 Seiten
DOI: 10.26083/tuprints-00017431
Corresponding Links:
Origin: Secondary publication DeepGreen
Abstract:

Fabrics treated to repel water, superhydrophobic, and water and oil, superamphiphobic, have numerous industrial and consumer-level benefits. However, the liquid repellency decreases in the course of time. This is largely due to chemical or physical changes of the coating due to prolonged exposure to relatively harsh environments. To develop more durable fabric treatments for specific applications, it is necessary to measure the extent to which the treated fabrics retain their low-wettability after being subjected to controlled aggressive environmental conditions. In this study, plain weave fabrics made from polyester filaments and coated with silicone nanofilaments in-solution were exposed to aerodynamic icing conditions. The coated fabrics showed superhydrophobic behavior, or superamphiphobic for those that were fluorinated. The wettability of the fabrics was progressively evaluated by contact angle and roll-off-angle measurements. The coated fabrics were able to maintain their low-wettability characteristics after exposure to water droplet clouds at airspeeds up to 120 m/s, despite damage to the silicone nanofilaments, visible through scanning electron microscopy.

Uncontrolled Keywords: superhydrophobicity, superamphiphobicity, aerospace, atmospheric icing, durability, ultra-light aircraft
Status: Publisher's Version
URN: urn:nbn:de:tuda-tuprints-174319
Classification DDC: 600 Technology, medicine, applied sciences > 660 Chemical engineering
Divisions: 16 Department of Mechanical Engineering > Fluid Mechanics and Aerodynamics (SLA)
Date Deposited: 09 Feb 2022 14:47
Last Modified: 14 Nov 2023 19:03
SWORD Depositor: Deep Green
URI: https://tuprints.ulb.tu-darmstadt.de/id/eprint/17431
PPN: 505578395
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