Eur. Phys. J. Appl. Phys. 82, 21302 (2018)
https://doi.org/10.1051/epjap/2018170209

Regular Article 

A facile route to obtain binary micro-nano roughness on composite coating surface

¹ School of Mechanical and Electrical Engineering, Yangtze Normal University, 408000 Chongqing, PR China
² Ministry of Education's Key Laboratory of Poyang Lake Wetland and Watershed Research, Jiangxi Normal University, 330022 Nanchang, PR China

^* e-mail: peng_cheng_123_456@163.com

Received: 18 June 2017
Received in final form: 19 January 2018
Accepted: 23 January 2018
Published online: 15 August 2018

Abstract

Binary micro-nano rough morphology or structure shows a significant influence on hydrophobicity and icing-resistivity of the surface of coating materials. The leading cause for the classic Cassie state superhydrophobicity is the high area fraction of micro/nano air mattresses being in direct contact with a measured droplet. In this work, the dependence of static hydrophobicity on weight content of commercial surface-hydrophobicity-modified nano-silica in fluoropolymer based composite coatings has been investigated in detail via detecting static water contact angle (CA). It was found that elevating the weight content of hydrophobic nano-silica could contribute to a higher surface roughness, a more compact binary micro-nano morphology and a larger area ratio of air mattresses due to a stronger hypothesized phase separation. As a result, the remarkably improved water CA of composite coatings far higher than the neat polymer coating was observed relying on coating composition. Fortunately, the maximum static water CA of 167° was obtained in composite coating loaded with 50 wt% of hydrophobic nano-silica. For gaining the desired high comprehensive performances, it was advised to introduce 30 wt% of nano-filler into polymer. This work might open a facile route to achieve the promising superhydrophobic and anti-icing materials.