Nanosecond laser fabrication of superhydrophobic Ti6Al4V surfaces assisted with different liquids

In this paper, the Ti6Al4V surface was textured in air, water, ethanol and saturated sodium bicarbonate solution respectively using a nanosecond pulse fiber laser, and the surfaces with different degrees of hydrophobicity were obtained. The morphology, chemical compositions and wettability of the su...

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Bibliographic Details
Published in:Colloid and interface science communications 2020-03, Vol.35, p.100256, Article 100256
Main Authors: Wang, Yutong, Zhao, Xiaoyan, Ke, Changjun, Yu, Jin, Wang, Ran
Format: Article
Language:English
Subjects:
Laser ablation in liquid
Nanosecond laser
Superhydrophobic surface
Ti6Al4V
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Summary:In this paper, the Ti6Al4V surface was textured in air, water, ethanol and saturated sodium bicarbonate solution respectively using a nanosecond pulse fiber laser, and the surfaces with different degrees of hydrophobicity were obtained. The morphology, chemical compositions and wettability of the surfaces textured in different environments were analyzed. The dynamic characteristic of laser ablation in liquid was also analyzed briefly. It is found that surfaces with different wettability can be obtained by liquid-assisted nanosecond laser etching. Especially in the ethanol environment, the water contact angle and the rolling angle are 154.9° and 9.8°, respectively, which indicates the superhydrophobicity of the textured surface. In addition, the surface textured in saturated sodium bicarbonate solution has strong adhesion to water. Due to the presence of the liquid layer on the surface, the debris and dust generated during the laser texturing process is significantly reduced. Furthermore, these surfaces maintain excellent hydrophobicity after being placed in the atmosphere. [Display omitted] •A new method for surperhydrophobic surface by laser ablation in liquid is reported.•The morphology, chemistry and wettability of surface textured in different liquids are investigated.•Surfaces with different wettability were obtained by liquid-assisted laser etching.•The method proposed can effectively reduce metal debris and fumes and help to achieve clean laser processing.
ISSN:2215-0382
2215-0382
DOI:10.1016/j.colcom.2020.100256