A superhydrophobic/photothermal synergistic anti-icing mesh with active/passive anti-icing function

IF 1.8 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Research Express Pub Date : 2024-07-22 DOI:10.1088/2053-1591/ad59ef

Zhanguo Cao, Zeweiyi Gong, Xianlong Ma, Jing Peng, Yanmei Xiong, Yongjie Nie, Yuting Duan, Hao Li, Shuai Zhou, Tong Rao, Qizhi Chen and Peng Wang

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Abstract

The ice covering of transmission lines tends to cause flashover along the surface, and even topple the tower in serious cases, which seriously threatens the safe operation of the power grid. Here, a dual active and passive anti-icing strategy was designed. The active deicing was achieved by photothermal effect, and passive anti-icing was based on superhydrophobicity. On the one hand, the semi-embedded candle ash gives the surface excellent photothermal characteristics, which can quickly melt the ice through sunlight; On the other hand, the superhydrophobic coating based on candle ash demonstrates excellent passive anti-icing performance, which reduces ice adhesion as small as 3.0 kPa and delayed freezing time as long as 1096 s. Furthermore, the semi-embedded structure enables the superhydrophobic coating excellent anti-abrasion ability and outstanding self-cleaning property. This combination of active and passive anti-icing strategies provides a reference for the current anti-icing and deicing methods of transmission lines.

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一种具有主动/被动防冰功能的超疏水/光热协同防冰网

输电线路覆冰容易造成沿线闪络，严重时甚至会造成杆塔倾覆，严重威胁电网的安全运行。在此，我们设计了一种主动和被动双重防冰策略。主动除冰是通过光热效应实现的，被动防冰则是基于超疏水性。一方面，半嵌入式烛灰赋予了表面优异的光热特性，可通过阳光迅速融化冰层；另一方面，基于烛灰的超疏水涂层表现出了优异的被动防冰性能，可降低小至 3.0 kPa 的冰附着力，延迟冻结时间长达 1096 秒。这种主动和被动相结合的防冰策略为目前输电线路的防冰和除冰方法提供了参考。

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来源期刊

Materials Research Express MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

4.50

自引率

4.30%

发文量

640

审稿时长

12 weeks

期刊介绍： A broad, rapid peer-review journal publishing new experimental and theoretical research on the design, fabrication, properties and applications of all classes of materials.