Open AccessSYNTHESIS AND RESEARCH OF SUPERHYDROPHOBIC, ANTI-ICING HYBRID COATINS
Author(s) -
О. А. Шилова,
Шилова Ольга Алексеевна,
I. N. Tsvetkova,
Цветкова Ирина Николаевна,
L. N. Krasil’nikova,
Красильникова Лариса Николаевна,
E. Yu. Ladilina,
Ладилина Елена Юрьевна,
T. S. Lyubova,
Любова Татьяна Сергеевна,
I. Yu. Kruchinina,
Кручинина Ирина Юрьевна
Publication year - 2015
Publication title -
transportnye sistemy i tehnologii
Language(s) - English
Resource type - Journals
ISSN - 2413-9203
DOI - 10.17816/transsyst20151191-98
Subject(s) - contact angle , materials science , fumed silica , superhydrophobic coating , composite material , coating , adhesion , chemical engineering , engineering
An approach to the formation of anti-icing nanostructured coatings for use on metal to protect against freezing and corrosion of various metal structures was presented in this work. A method for preparing superhydrophobic coatings using the sol-gel compositions with fluorinated dialkoxysilanes and hydrophobized filler was developed. Synthesized methyltriethoxysilane sols were used for film forming compositions by mixing with the fluorine-containing powder and hydrophobizing aerosil. The hydrophobicity and adhesion properties were investigate by physical and chemical methods. The method of digital image processing sedentary drops on the surface was used to study the dynamics of change in contact angles. The adhesion of the coating to the substrate was evaluated by method of a lattice cut and made up 1 point. Determination of physical properties by measuring the contact angles and roll-off of water drops from the surface showed that the coatings have a high contact angle (over 150 °), and the sliding angle less than 10 degrees. That could confirm the superhydrophobicity and assume anti-freezing properties. It was revealed that aerosil has a significant impact to hydrophobic and superhydrophobic properties.