引用本文:
Hao WANG, Xiao Min WU, Li Ming TANG, Wan Tian DAI, Feng You JIN. Improving Anti-frosting Performance for Super-hydrophobic Nanocomposite Coatings[J]. Chinese Chemical Letters,
2006, 17(10): 1401-1404.
Citation: Hao WANG, Xiao Min WU, Li Ming TANG, Wan Tian DAI, Feng You JIN. Improving Anti-frosting Performance for Super-hydrophobic Nanocomposite Coatings[J]. Chinese Chemical Letters, 2006, 17(10): 1401-1404.
Citation: Hao WANG, Xiao Min WU, Li Ming TANG, Wan Tian DAI, Feng You JIN. Improving Anti-frosting Performance for Super-hydrophobic Nanocomposite Coatings[J]. Chinese Chemical Letters, 2006, 17(10): 1401-1404.
Improving Anti-frosting Performance for Super-hydrophobic Nanocomposite Coatings
摘要:
New super-hydrophobic nanocomposite coatings were formed from modified nano-sized CaCO3 particles and polyacrylate at weight ratio of 9/1-8/2. SEM and XPS analysis indicated that such hydrophobicity could be attributed to the surface nano-microstructure and the surface enrichment of fluorine atoms. As the surface hydrophobicity increased, longer time was required for formation the initial frost, which makes super-hydrophobic coatings suitable for anti-frosting purpose.
English
Improving Anti-frosting Performance for Super-hydrophobic Nanocomposite Coatings
Abstract:
New super-hydrophobic nanocomposite coatings were formed from modified nano-sized CaCO3 particles and polyacrylate at weight ratio of 9/1-8/2. SEM and XPS analysis indicated that such hydrophobicity could be attributed to the surface nano-microstructure and the surface enrichment of fluorine atoms. As the surface hydrophobicity increased, longer time was required for formation the initial frost, which makes super-hydrophobic coatings suitable for anti-frosting purpose.
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Key words:
- Super-hydrophobicity
- / nanocomposite coating
- / anti-frosting
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