利用亚毫米微粒作为保护结构，以环保方式制造出具有优异防腐蚀和防结冰性能的坚固超疏水涂层

IF 5.3 2区材料科学 Q1 MATERIALS SCIENCE, COATINGS & FILMS

Surface & Coatings Technology Pub Date : 2024-10-30 DOI:10.1016/j.surfcoat.2024.131494

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引用次数: 0

摘要

构建超疏水表面是增强金属材料防腐蚀和防结冰性能的一种可行方法。然而，通过简单、环保的方法在金属基底上获得坚固的超疏水表面仍是一项挑战。本研究采用简单的两步法，即在涂有环氧树脂（EP）的铝基材上撒上 B4C 亚毫米颗粒以构建亚毫米防护结构，然后浸渍 EP/ 聚二甲基硅氧烷（PDMS）/ 疏水 SiO2 纳米颗粒的混合物以赋予其超疏水性，在铝基材上制作了坚固的超疏水涂层。涂层的机械坚固性通过砂纸磨损、3 M 胶带剥离和沙粒冲击测试进行了评估。结果表明，涂层在经过 16 m 的砂纸磨损（3.2 kPa）、60 次 3 M 胶带剥离和 2500 g 的砂粒冲击后仍能保持其超疏水性，表明涂层具有良好的抗不同机械损伤能力。电化学试验测定了涂层的抗腐蚀性能，结果表明涂层具有优异的抗腐蚀性能，其腐蚀电流密度比裸铝低 34.06 倍。通过冰冻延迟时间和除冰力测试评估了涂层的抗冰性能，结果表明涂层具有出色的抗冰性能，冰冻延迟时间比裸铝长 730 秒，除冰力比裸铝低 3-4 倍。可以说，该涂层具有制作简单、防腐防冰性能好、机械坚固耐用等优点，在实际应用中具有广阔的前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Eco-friendly fabrication of robust superhydrophobic coating with excellent anti-corrosion and anti-icing properties through using submillimeter particles as protective structure

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Eco-friendly fabrication of robust superhydrophobic coating with excellent anti-corrosion and anti-icing properties through using submillimeter particles as protective structure

Constructing superhydrophobic surfaces is a promising method for enhancing the anti-corrosion and anti-icing properties of metal materials. However, it is still a challenge to obtain robust superhydrophobic surfaces on metal substrate through simple and environmentally friendly methods. In this study, a robust superhydrophobic coating was fabricated on an aluminum substrate using a simple two-step method, i.e., sprinkling B₄C submillimeter particles onto the aluminum substrate coated with epoxy resin (EP) to construct submillitmeter protective structure, and then dipping a mixture of EP/polydimethylsiloxane (PDMS)/hydrophobic SiO₂ nanoparticles to impart superhydrophobicity. The mechanical robustness of the coating was evaluated using sandpaper abrasion, 3 M tape peeling, and sand impact tests. The results displayed that the coating maintained its superhydrophobicity after 16 m of sandpaper abrasion (3.2 kPa), 60 cycles of 3 M tape peeling, and 2500 g of sand impact, indicating the good resistance of the coating to different mechanical damages. The anti-corrosion property of the coating was measured by the electrochemistry tests, and the results confirmed that the coating possessed excellent anti-corrosion property with 34.06 times lower corrosion current density than the bare aluminum. The anti-icing property of the coating was assessed by freezing delayed time and de-icing force tests, and the results demonstrated that coating had outstanding anti-icing property with 730 s longer freezing delay time and 3–4-folds lower de-icing force than the bare aluminum. It can be excepted that the coating has a promising prospect in practical application due to its simple fabrication, good anti-corrosion and anti-icing properties and remarkable mechanical robustness.

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来源期刊

Surface & Coatings Technology 工程技术-材料科学：膜

CiteScore

10.00

自引率

11.10%

发文量

921

审稿时长

19 days

期刊介绍： Surface and Coatings Technology is an international archival journal publishing scientific papers on significant developments in surface and interface engineering to modify and improve the surface properties of materials for protection in demanding contact conditions or aggressive environments, or for enhanced functional performance. Contributions range from original scientific articles concerned with fundamental and applied aspects of research or direct applications of metallic, inorganic, organic and composite coatings, to invited reviews of current technology in specific areas. Papers submitted to this journal are expected to be in line with the following aspects in processes, and properties/performance: A. Processes: Physical and chemical vapour deposition techniques, thermal and plasma spraying, surface modification by directed energy techniques such as ion, electron and laser beams, thermo-chemical treatment, wet chemical and electrochemical processes such as plating, sol-gel coating, anodization, plasma electrolytic oxidation, etc., but excluding painting. B. Properties/performance: friction performance, wear resistance (e.g., abrasion, erosion, fretting, etc), corrosion and oxidation resistance, thermal protection, diffusion resistance, hydrophilicity/hydrophobicity, and properties relevant to smart materials behaviour and enhanced multifunctional performance for environmental, energy and medical applications, but excluding device aspects.