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The Criterion of Supercooled Bionic Lotus Surfaces Repelling Impacting Droplets for Anti‐Icing Engineering

Zewei Zhu, Jingbo Li, Yimin Luo, Xia Li, Litao Chen, Yujie Yang, Zhuangzhu Luo

2023Advanced Materials Interfaces14 citationsDOIOpen Access PDF

Abstract

Abstract Icephobic material is of great importance in power transportation, communication, aerospace, and so on. Bionic lotus superhydrophobic surfaces show good application prospects in anti‐icing by repelling impacting droplets. However, the boundary (criterion) between droplet bounce and deposition on superhydrophobic surface under cold freezing rain is unclear. Here, from the view of statistics, the boundary and internal heat transfer mechanism of the droplet bounce, pinning, and three kinds of deposition including icing at later, early retraction, and spread. are clarified Droplet viscosity increase reduces droplet contact with surface and inhibited splash at high We . Surfaces with temperature above −20.6 °C showed 100% droplet bounce after impact on We = 64.7, and the probability of water adhesion and ice nucleation decreases to ≈0%, resulting in completely anti‐icing. Droplet bounce transition mainly ascribe to the decrease retraction driven force caused by interface freezing and transition temperature increases approximately linearly from −25.9 to −21.1 °C within 21.6 < We < 75.5. Ice nuclei brought by condensation in humid environment (60–100 RH%) further cause droplet eccentric retraction and transition temperature increases to −6 to −10 °C. The fundamental understanding of droplet behaviors on supercooled superhydrophobic surface is beneficial for icephobic surfaces applications.

Topics & Concepts

IcingSupercoolingMaterials scienceLotus effectNucleationSplashCondensationIcing conditionsIce nucleusSuperhydrophobic coatingDeposition (geology)Composite materialNanotechnologyChemical physicsCoatingMeteorologyThermodynamicsChemistryPaleontologyRaw materialPhysicsOrganic chemistryBiologySedimentSurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferIcing and De-icing Technologies
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