| 摘要: |
| 通过激光表面织构化加工方法在铝合金表面制备出一种微米尺度的特殊凹坑结构,利用扫描电子显微镜(SEM)、超景深三维显微镜观测表面形貌;用接触角测量仪表征液滴在表面的润湿特性;通过高温稳定性、低温抗结冰实验和自清洁实验研究表面的温度特性和自清洁特性。结果表明:表面由规则有序的凹坑结构排列组成,且各凹坑带有一定的凸肩结构。表面对水滴的静态接触角最高达到154.6°,滚动角小于5.2°;对甘油的接触角最高达到150.3°,滚动角小于8.7°。超疏水表面在抗结冰和自清洁方面表现出优异的性能,为表面在油、水或两者的混合介质等领域内的应用提供一定的参考。 |
| 关键词: 激光织构化 超疏水 疏油 抗结冰 自清洁 |
| DOI:10.11933/j.issn.1007-9289.2016.03.011 |
| 分类号: |
| 基金项目:吉林省教育厅科学技术研究项目(22215096);中国博士后科学基金(2014M551145);长春理工大学青年科学基金(2021000522) |
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| Fabrication of Amphiphobic Surface on Aluminum via Laser Surface Texturing |
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LI Jing1, ZHAO Yan-hui1, LI Hong1, DU Feng2, LU Shu-zhen1
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1.College of Mechanical and Electric Engineering, Changchun University of Science and Technology, Changchun 130022;2.Department of Mechanical Engineering, Changchun Institute of Engineering, Changchun 130117
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| Abstract: |
| A micro-scale crater-like structure on aluminum substrates was fabricated by laser textured technology. Surface morphology of the sample was investigated by scanning electron microscopy (SEM) and ultra-depth three-dimensional scanning system. The wettability of the surface was obtained by optical contact angle measurement. A thermal stability test and a deicing test were carried out to evaluate the temperature characteristic. Self-cleaning test was performed to evaluate the anti-fouling and anti-contamination property. Results indicate that the self-ordering craters surrounded by convex were formed on the surface. This particular structure makes the surface superhydrophobic character. The maximum value of contact angle of water is 154.6° with a sliding angel less than 5.2°. Meanwhile, the maximum value of contact angle of glycerol is 150.3° with a sliding angle less than 8.7°. This textured surface also shows excellent deicing capability and self-cleaning properties. The fabrication technique is a promising method to provide superhydrophobic surface with potential applications including fluid transfer, fluid power systems, stain-resistant and anti-fouling surfaces, anti-creeping of oils, anti-contamination, and oil transport. |
| Key words: laser textured superhydrophobic oleophobic deicing self-cleaning |
