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Anti-corrosion and anti-icing properties of superhydrophobic laser-textured aluminum surfaces

Peter Rodič, Nina Kovač, Slavko Kralj, Samo Jereb, Iztok Golobič, Matic Može, Ingrid Milošev

2024Surface and Coatings Technology28 citationsDOIOpen Access PDF

Abstract

Superhydrophobic surfaces have favorable properties in simultaneously reducing the negative effects of corrosion and ice accumulation. In this study, laser-texturing was employed as a facile and environmentally friendly surface method to prepare a surface with hierarchical roughness for subsequent grafting by immersion in an ethanol solution containing 1H,1H,2H,2H-perfluorodecyltriethoxysilane (FAS-10). Various analytical techniques were utilized to assess the characteristics of the laser-textured aluminum surfaces before and after grafting, such as a contact profilometer, optical tensiometer, scanning electron microscope with energy-dispersive spectroscope, and X-ray photoelectron spectroscope. These methods were used to evaluate surface roughness, wettability, morphology, and composition. The corrosion properties were evaluated through potentiodynamic and impedance measurements in a dilute Harrison's solution (DHS) composed of 0.35 wt% (NH 4 ) 2 SO 4 + 0.05 wt% NaCl. Additionally, freezing delay tests at various surface temperatures were performed to assess the surface's ability to prevent the freezing of water droplets on the treated surface. The laser-textured aluminum surface, featuring micro/nanostructures and a grafted nanoscopic perfluoroalkyl silane film, exhibited outstanding superhydrophobicity and enhanced corrosion protection. The developed surface has been shown to significantly delay the onset of ice nucleation and extend the freezing delay. • Micro/nanoscale roughness created by optimal laser surface texturing on 1050A aluminum. • Superhydrophobic properties achieved after controlled grafting using perfluoroalkyl silane. • SEM/EDS/XPS analyses confirmed perfluoroalkyl silane bonded to the surface. • Enhanced corrosion protection in dilute Harrison's solution. • A significant freezing delay obtained on the superhydrophobic surface.

Topics & Concepts

IcingAluminiumMaterials scienceCorrosionLaserAnti-corrosionMetallurgyAnodizingComposite materialNanotechnologyOpticsPhysicsMeteorologySurface Modification and SuperhydrophobicityAdhesion, Friction, and Surface InteractionsSilicone and Siloxane Chemistry
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