激光刻蚀和镍电沉积制备超疏水框架-锥体结构

IF 2.4 4区 材料科学 Q3 MATERIALS SCIENCE, COATINGS & FILMS Surface Engineering Pub Date : 2023-01-02 DOI:10.1080/02670844.2023.2189648
H. Liu, Yuelan Di, Hai-Dong Wang, Yun-cai Zhao
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引用次数: 0

摘要

摘要微机电系统中的金属部件在潮湿环境中容易因液滴粘附而发生故障和腐蚀。微纳尺度上的几个多级结构可以诱导有效的超疏水性来防止这种粘附。这项研究提出了一种混合制造工艺,通过结合超快激光蚀刻和电沉积在金属表面产生“框架-锥形”纹理。用圆锥形的纳米亚微米Ni涂层涂覆周期性分布的框架凹陷和凹坑,并分别通过调节激光扫描时间和电流密度来控制凹坑深度和高度。使用混合工艺,表面附着力降低至22.8μN,静态接触角保持在156.7°,而相同深度的激光蚀刻样品的附着力为164.7μN。多层“框架锥”结构储存了更多的空气,并减少了凹坑底部和液滴之间的接触面积。超快激光蚀刻和电沉积的混合工艺有助于提高超疏水性,对衬底的损伤较小。
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Production of a superhydrophobic frame-cone structure by laser etching and Ni electrodeposition
ABSTRACT Metal components in microelectromechanical systems are prone to failure and corrosion due to droplet adhesion in wet environments. Several multi-level structures on the micro-nano scale may induce effective superhydrophobicity to prevent such adhesion. This study proposes a hybrid manufacturing process to generate ‘frame-cone’ textures on the surfaces of metals by combining ultra-fast laser etching and electrodeposition. Periodically distributed frame recesses and pits were coated with nano-submicron Ni coatings with conical shapes, and the pit depth and cone height were controlled by tuning the laser scanning time and current density, respectively. The surface adhesion force was reduced to 22.8 μN, and the static contact angle was maintained at 156.7° using the hybrid process, while the adhesion forces of laser etched samples with the same depth were 164.7 μN. The multi-level ‘frame-cone’ structure stored more air and reduced the contact areas between the bottoms of the pits and droplets. The hybrid process of ultra-fast laser etching and electrodeposition aided in improving the superhydrophobicity, with less damage to the substrate.
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来源期刊
Surface Engineering
Surface Engineering 工程技术-材料科学:膜
CiteScore
5.60
自引率
14.30%
发文量
51
审稿时长
2.3 months
期刊介绍: Surface Engineering provides a forum for the publication of refereed material on both the theory and practice of this important enabling technology, embracing science, technology and engineering. Coverage includes design, surface modification technologies and process control, and the characterisation and properties of the final system or component, including quality control and non-destructive examination.
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