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Review of Laser Texturing Technology for Surface Protection and Functional Regulation of Aluminum Alloys: Wettability, Anti-Icing, Corrosion Resistance, and Wear Resistance

Jinxia Zhou, Jie Wu, Shanshan Tang, Yanzhou Li

2025Coatings20 citationsDOIOpen Access PDF

Abstract

Laser surface texturing (LST) is a versatile method for enhancing material surface properties, offering high precision and flexibility for surface modification. This review comprehensively examines the application of laser texturing technology for surface protection and functional regulation of aluminum alloys, focusing on wettability, anti-icing, corrosion resistance, and wear resistance. It highlights recent progress in laser surface patterning techniques, describing the principles and attributes of methods such as direct laser writing, laser interference patterning, and laser shock treatment. The influence of laser intensity, scanning velocity, and texture spacing on surface topography is discussed thoroughly. Mechanisms of wettability control via laser surface texturing are summarized, emphasizing the key factors required to achieve superhydrophobic or hydrophilic properties through texture design. Advancements in enhancing anti-icing, anti-frost, anti-fouling, and anti-corrosion properties through multi-scale textures and their synergistic effects with functional coatings are analyzed. Additionally, the enhancement of wear resistance and friction performance under both dry and lubricated conditions is reviewed, with a focus on how the geometry and arrangement of textures affect the coefficient of friction and wear rate. Finally, the paper addresses challenges and future directions, including process optimization, scalability, and the integration of LST with advanced coatings to maximize its potential in aluminum alloy applications.

Topics & Concepts

WettingCorrosionIcingMaterials scienceAluminiumMetallurgyWear resistanceLaserComposite materialOpticsOceanographyGeologyPhysicsSurface Modification and SuperhydrophobicityTribology and Lubrication EngineeringAdhesion, Friction, and Surface Interactions