Abstract

AbstractAnti‐icing of superhydrophobic materials has attracted a lot of attention. The potential for applications in power electronics, transportation, engineering and other fields is enormous. However, in practical applications, the anti‐icing performance parameters of superhydrophobic materials are still far from meeting the engineering requirements. It is a feasible solution to modify superhydrophobic materials to assist surface deicing by combining the vibration and heat generated by equipment in actual engineering. In this study, conventional superhydrophobic materials are modified by h‐BN. The electrical properties are improved to meet the engineering requirements. At the same time, it reduces the ice adhesion at the interface and improves the thermal conductivity of the material. The modified material has the possibility of assisting in de‐icing in engineering applications. A feasible solution is found for the engineering interface ice‐covering problem.

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