Study on the Fabrication of Coating-Free Superhydrophobic Aluminum Alloy Surfaces by Femtosecond Laser and Its Wettability Control Mechanism
Kaijie Cheng, Ji Wang, Bojie Xu, Guolong Wang

TL;DR
This study explores how femtosecond laser settings affect the creation of superhydrophobic aluminum surfaces without coatings.
Contribution
The work clarifies how laser parameters and thermal treatment influence micro/nano-structure formation and wettability in aluminum alloys.
Findings
Smaller scanning spacing with high laser fluence reduces microstructure height and water contact angle.
Optimal laser conditions at 40 μm spacing produce the most robust hierarchical nano-structures with a maximum water contact angle of 162.6°.
Excessive laser fluence damages nano-structures, reducing wettability.
Abstract
This work systematically investigates the coupled effects of femtosecond laser parameters (wavelength: 515 nm, pulse width: 373 fs, laser fluence: 3.18–12.7 J/cm2, repetition frequence: 100 kHz) and post-fabrication thermal treatment on the micro/nano-structure evolution and wettability of aluminum alloys. By varying the scanning spacing (20–80 μm) and laser fluence, diverse hierarchical surface morphologies were obtained. At a small scanning spacing of 20 μm, increasing laser fluence causes severe thermal accumulation and structural collapse, with the microstructure height decreasing from 42.68 μm to 20.30 μm and the water contact angle (WCA) dropping from 158.6° to 143.5°, indicating a degradation of the superhydrophobic state. In contrast, at larger spacings (60–80 μm), moderate fluence enhances microstructure depth and roughness, yielding peak WCAs of ~160°, while excessive fluence…
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Taxonomy
TopicsLaser Material Processing Techniques · Surface Modification and Superhydrophobicity · Laser-Ablation Synthesis of Nanoparticles
