Vibration-triggered spreading of nanofluid drops

Schon Fusco, Lingyue Liu, M. Cabrerizo-Vílchez, E. Koos, M. Rodríguez-Valverde
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Abstract

This study explores the effects of nanoparticles on the dynamics of drop spreading under external vibration, presenting an advance in the understanding of nanofluid behavior on vibrating substrates. This work introduces insights into nanoparticle-mediated drop spreading, offering implications for improving particulate coatings, mini-mixers, and particle segregation technologies. By employing a twofold approach that combines oscillating drop dynamics with internal flow pattern analysis, we find how even small concentrations of hydrophilic or hydrophobized silica nanoparticles inside water sessile droplets significantly alter the spreading process on silanized glass surfaces. Our study allows distinct drop spreading regimes to be identified based on nanoparticle concentration and vibration amplitude, for both hydrophilic and hydrophobized nanoparticles. Through a comprehensive analysis, we demonstrate that the vibration-triggered spreading of nanofluids can lead to a stable and controlled manipulation of complex liquids.
振动触发的纳米流体液滴扩散
本研究探讨了纳米粒子对外部振动下液滴扩散动力学的影响,为了解纳米流体在振动基底上的行为提供了一个新的视角。这项研究深入探讨了纳米颗粒介导的液滴扩散,为改进微粒涂层、微型搅拌器和微粒分离技术提供了启示。通过采用振荡液滴动力学与内部流动模式分析相结合的双重方法,我们发现,即使水无柄液滴内亲水或疏水二氧化硅纳米粒子的浓度很小,也会显著改变硅烷化玻璃表面的扩散过程。通过我们的研究,可以根据纳米颗粒浓度和振动振幅确定亲水性和疏水性纳米颗粒的不同液滴扩散机制。通过综合分析,我们证明了振动触发的纳米流体扩散可以实现对复杂液体的稳定、可控操纵。
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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