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憎冰表面:定义与品质因数

Icephobic surfaces: Definition and figures of merit.

作者信息

Irajizad Peyman, Nazifi Sina, Ghasemi Hadi

机构信息

Department of Mechanical Engineering, University of Houston, 4726 Calhoun Rd, Houston, TX 77204-4006, USA.

Department of Mechanical Engineering, University of Houston, 4726 Calhoun Rd, Houston, TX 77204-4006, USA.

出版信息

Adv Colloid Interface Sci. 2019 Jul;269:203-218. doi: 10.1016/j.cis.2019.04.005. Epub 2019 Apr 27.

Abstract

Icephobic surfaces have a critical footprint on human daily lives ranging from aviation systems and infrastructures to energy systems, but creation of these surfaces for low-temperature applications remains elusive. Non-wetting, liquid-infused and hydrated surfaces have inspired routes for development of icephobic surfaces. However, high freezing temperature, high ice adhesion strength and subsequent ice accretion, low mechanical durability, and high production cost have restricted their practical applications. In this review, we provide a comprehensive definition for icephobicity through thermodynamics, heat transfer and mechanics of ice/water-material interface and elucidate physic-based routes through which nano-scale could help to achieve exceptional icephobic surfaces. Based on conservation laws, mathematical models are developed that accurately predict ice growth rate on various substrates and wind conditions. Through physics of fracture at ice-icephobic material interface, we cast a standard method for ice adhesion measurement that has the potential to eliminate discrepancies between reported ice adhesion from different laboratories. To assure long-time performance of icephobic surfaces, durability metrics need to be defined. We provide standard methods to examine mechanical, chemical, and environmental durability of icephobic surfaces. In the developed comprehensive framework on icephobicity in this review, performance of state-of-the-art icephobic surfaces are compared and main deficiencies in this field are highlighted.

摘要

疏冰表面在人类日常生活中有着至关重要的影响,涵盖从航空系统、基础设施到能源系统等诸多领域,但开发适用于低温应用的此类表面仍然困难重重。非湿润、液体注入和水合表面为疏冰表面的开发提供了思路。然而,高冻结温度、高冰粘附强度及随之而来的积冰、低机械耐久性和高生产成本限制了它们的实际应用。在本综述中,我们通过冰/水-材料界面的热力学、传热和力学为疏冰性提供了一个全面的定义,并阐明了基于物理的途径,通过这些途径纳米尺度有助于实现优异的疏冰表面。基于守恒定律,建立了能准确预测各种基材和风力条件下冰生长速率的数学模型。通过冰-疏冰材料界面的断裂物理,我们提出了一种冰粘附力测量的标准方法,该方法有可能消除不同实验室报告的冰粘附力之间的差异。为确保疏冰表面的长期性能,需要定义耐久性指标。我们提供了检测疏冰表面机械、化学和环境耐久性的标准方法。在本综述中所建立的关于疏冰性的综合框架内,对现有疏冰表面的性能进行了比较,并突出了该领域的主要不足。

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