Research on Anti-Icing Mechanism of Aircraft Based on Hydrophobic Functional Surface
YU Jingyao1, XUE Lei2, TAO Haiyan1, LIN Jingquan1
(1. School of Science, Changchun University of Science and Technology, Changchun 130000, China;
2. AVIC Chengdu CAIC Electronics Co., Ltd., Chengdu 610000, China)
Abstract:How to avoid the latent problem caused by ice frozen on the aircraft has been an important issue in the
aviation field. Recently, the concept of passive anti-icing ice on the surface of hydrophobic materials has been proposed and
developed rapidly. In this paper, the mechanism and method of preventing surface icing at the stage of droplet impact are
introduced. The research methods including the reduction of the contact time of water droplet and surface and reducing the
formation time of ice nucleus, are systematically reviewed. And the anti-icing mechanism of the droplets after freezing is
also mentioned. The research progress of reducing the ice adhesion by hydrophobic surface performance and micro/nanostructure
morphology is concerned. Finally, the development of hydrophobic surface anti-icing is prospected.
于竞尧1,薛 磊2,陶海岩1,林景全1. 基于疏水功能表面的飞机防覆冰机理研究进展*[J]. 航空制造技术, 2017, 60(17): 55-59.
YU Jingyao1, XUE Lei2, TAO Haiyan1, LIN Jingquan1. Research on Anti-Icing Mechanism of Aircraft Based on Hydrophobic Functional Surface. Aeronautical Manufacturing Technology, 2017, 60(17): 55-59.