Xiaoru Hao scite author profile

This paper investigated anti-icing behavior and wettability of droplets on superhydrophobic polymercoatings between lotus effect and petal effect, which were prepared on surfaces of 2021 aluminum alloy with 1H, 1H, 2H, 2H-heptafluorodecyl (FAS-17). The prepared surfaces displayed excellent hydrophobicity with contact angles of 154.9° ± 1.5°and 139.8° ± 1.3°, while rolling angles are 4° ± 1.0° (lotus effect) and 30° ± 1.5° (petal effect). Thus, the present study focused on the different characterizations and the anti-icing potential of the superhydrophobic polymersurfaces were analyzed based on three parameters including the icing delay time, the crystallization temperature of water droplets, and contact time of impinging droplets on the cold superhydrophobic polymer coatings (−15 °C). Furthermore, the anti-icing of superhydrophobic coatings between lotus effect and petal effect with freezing time and crystallization temperature experimental phenomena were consistent with the thermodynamic analysis. It is also proved that the droplets have different bounce behavior on different polymercoating surfaces by droplet impact experiment. The study offers a comprehensive perspective on polymercoatings of different wetttablility for anti-icing behavior applications.

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Xiaoru Hao

Preparation of SiO₂ resin coating with superhydrophobic wettability and anti-icing behavior analysis

Finite Element Analysis of Single-Particle Impact on Mild Steel and Spheroidal Graphite Cast Iron

Experimental study of methane hydrate generation characteristics in the presence of GO and Re-GO

Icing behavior of supercooled droplets on superhydrophobic polymercoatings between lotus effect and petal effect

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Xiaoru Hao

Preparation of SiO2 resin coating with superhydrophobic wettability and anti-icing behavior analysis

Finite Element Analysis of Single-Particle Impact on Mild Steel and Spheroidal Graphite Cast Iron

Experimental study of methane hydrate generation characteristics in the presence of GO and Re-GO

Icing behavior of supercooled droplets on superhydrophobic polymercoatings between lotus effect and petal effect

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Resources

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Preparation of SiO₂ resin coating with superhydrophobic wettability and anti-icing behavior analysis