Two modes of contact-time reduction in the impact of particle-coated droplets on superhydrophobic surfaces

Droplet Pub Date : 2023-08-28 DOI:10.1002/dro2.89

Rutvik Lathia, Chandantaru D. Modak, Prosenjit Sen

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引用次数: 1

Abstract

Reducing the contact time during droplet impact is essential for many scientific and industrial applications, such as self-cleaning, anti-icing, heat transfer, and condensation. This paper reports contact-time reduction by coating droplets with micro–nano hydrophobic particles. Such particle-coated droplets are known as liquid marbles (LM). LM impact on superhydrophobic surfaces reveals two different modes of contact-time reduction. For lower impact energies, the reduced adhesion of LM with the surface is responsible for a reduction of up to 21%. Contact-time reduction in this regime is found to be independent of particle size but dependent on the solid fraction of LM. However, a fragmentation-based contact-time reduction is observed for larger particle sizes and higher impact energies. Here, the reduction is as high as 65%. Such fragmentation occurs because the spreading LM lamella breaks when its thickness becomes similar to particle dimensions. Our findings reveal the potential of LM as a novel approach to reduce contact time during droplet impact, with implications for various scientific and industrial applications.

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颗粒涂层液滴在超疏水表面上冲击的两种接触时间缩短模式

减少液滴撞击过程中的接触时间对于许多科学和工业应用至关重要，如自清洁、防冰、传热和冷凝。本文报道了通过用微-纳米疏水颗粒涂覆液滴来减少接触时间。这种颗粒涂覆的液滴被称为液体弹珠（LM）。LM对超疏水表面的冲击揭示了两种不同的接触时间减少模式。对于较低的冲击能量，LM与表面粘附力的降低导致了高达21%的降低。发现该状态下的接触时间减少与颗粒尺寸无关，但取决于LM的固体分数。然而，对于较大的颗粒尺寸和较高的冲击能量，观察到基于碎片的接触时间减少。在这里，减少率高达65%。发生这种碎裂是因为当LM片层的厚度变得与颗粒尺寸相似时，扩展的LM片层断裂。我们的发现揭示了LM作为一种减少液滴撞击过程中接触时间的新方法的潜力，对各种科学和工业应用都有意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Droplet

CiteScore

6.60

自引率

0.00%

发文量