Low Ice Adhesion on Nano-Textured Superhydrophobic Surfaces under Supersaturated Conditions

Subramanyam Srinivas Bengaluru; Kondrashov Vitaliy; Ruehe Juergen; Varanasi Kripa K.

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Low Ice Adhesion on Nano-Textured Superhydrophobic Surfaces under Supersaturated Conditions

机译：超饱和条件下纳米纹理超疏水表面的低冰粘附

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Ice adhesion on superhydrophobic surfaces can significantly increase in humid environments because of frost nucleation within the textures. Here, we studied frost formation and ice adhesion on superhydrophobic surfaces with various surface morphologies using direct microscale imaging combined with macroscale adhesion tests. Whereas ice adhesion increases on microtextured surfaces, a 15-fold decrease is observed on nanotextured surfaces. This reduction is because of the inhibition of frost formation within the nanofeatures and the stabilization of vapor pockets. Such "Cassie ice"-promoting textures can be used in the design of anti-icing surfaces.

机译：由于纹理内的霜状成核作用，在潮湿环境中，超疏水性表面上的冰粘附会显着增加。在这里，我们使用直接微观成像与宏观附着力测试相结合的方法研究了具有各种表面形态的超疏水表面上的霜冻形成和冰附着。尽管在微纹理表面上的冰附着力增加，但在纳米纹理表面上却观察到减少了15倍。该减少是由于抑制了纳米特征内的霜形成和蒸气囊的稳定。这种促进“卡西冰”的纹理可以用于防冰表面的设计。

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《ACS applied materials & interfaces》 |2016年第20期|共5页
作者
Subramanyam Srinivas Bengaluru; Kondrashov Vitaliy; Ruehe Juergen; Varanasi Kripa K.;
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正文语种 eng
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ice adhesion; frost formation; nanotexture; microtexture; cryogenic imaging cryo-FIB; cryo-SEM;

机译：冰附着;霜的形成;纳米纹理;微观纹理;低温成像冷冻FIB;低温SEM;

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1. Low Ice Adhesion on Nano-Textured Superhydrophobic Surfaces under Supersaturated Conditions [J] . Subramanyam Srinivas Bengaluru, Kondrashov Vitaliy, Ruehe Juergen, ACS applied materials & interfaces . 2016,第20期

机译：超饱和条件下纳米纹理超疏水表面的低冰粘附
2. Low Ice Adhesion on Nano-Textured Superhydrophobic Surfaces under Supersaturated Conditions [J] . Subramanyam Srinivas Bengaluru, Kondrashov Vitaliy, Ruehe Juergen, ACS applied materials & interfaces . 2016,第20期

机译：超饱和条件下纳米纹理超疏水表面的低冰粘附
3. Effects of contact angle hysteresis on ice adhesion and growth on superhydrophobic surfaces under dynamic flow conditions [J] . Mohammad Amin Sarshar, Christopher Swarctz, Scott Hunter Colloid and polymer science . 2013,第2期

机译：动态流动条件下接触角滞后对超疏水表面冰粘附和生长的影响
4. Nature's design of hierarchical superhydrophobic surfaces of a water strider for low adhesion and low energy dissipation [C] . Yewang Su, Baohua Ji, Yonggang Huang, . 2013

机译：大自然设计的阶梯式超疏水表面，以实现低附着力和低能耗
5. Superhydrophobic, Biomimetic Surfaces with High and Low Adhesion, Optical Transmittance, and Nanoscale Mechanical Wear Resistance. [D] . Ebert, Daniel R. 2016

机译：具有高和低粘合性，透光率和纳米级机械耐磨性的超疏水仿生表面。
6. Thermodynamics of sustaining liquid water within rough icephobic surfaces to achieve ultra-low ice adhesion [O] . Tom Y. Zhao, Paul R. Jones, Neelesh A. Patankar -1

机译：在粗糙的疏冰表面保持液态水以实现超低冰粘附的热力学
7. Effect of wettability and surface roughness on ice-adhesion strength of hydrophilic, hydrophobic and superhydrophobic surfaces [O] . Bharathidasan, T, Kumar, Vijay S, Bobji, MS, 2014

机译：润湿性和表面粗糙度对亲水，疏水和超疏水表面冰粘附强度的影响

Low Ice Adhesion on Nano-Textured Superhydrophobic Surfaces under Supersaturated Conditions

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