用表面工程调节液滴撞击对称性

Droplet Pub Date : 2023-03-16 DOI:10.1002/dro2.52
Zhipeng Zhao, Huizeng Li, Quan Liu, An Li, Luanluan Xue, Renxuan Yuan, Xinye Yu, Rujun Li, Xiao Deng, Yanlin Song
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引用次数: 10

摘要

水滴对固体表面的影响在自然界和工业中都是至关重要的。精确调节液滴撞击的动态行为对能量收集、防冰、喷墨打印、农药喷洒等领域具有重要意义。液滴撞击固体表面后的各种回弹行为(沉积、回弹、旋转、不稳定控制等)和回弹固有参数(如接触时间)可以通过表面工程进行调节。本文从化学修饰和物理结构调控两个方面综述了从对称性角度通过修饰固体表面来调控液滴撞击行为的进展,其中从镜像对称和旋转对称两个方面讨论了对称性。首先,介绍了液滴碰撞动力学的对称性及其影响因素。然后总结了利用均匀和非均匀化学改性固体表面对液滴冲击对称性的调制。以下介绍了与液滴尺寸相比,从微观到宏观的物理结构对液滴冲击对称性的影响。最后,讨论了液滴撞击行为调控的未来挑战和机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Regulating droplet impact symmetry by surface engineering

Regulating droplet impact symmetry by surface engineering

Droplet impact on solid surfaces is essential both in nature and industry. Precisely regulating the dynamic behavior of droplet impact is of great significance for energy harvesting, anti-icing, inkjet printing, pesticide spraying, and many other fields. Various rebounding behaviors (deposition, rebounding, rotation, instability control, and so on) and rebounding intrinsic parameters (such as contact time) after droplets impacting on solid surfaces can be regulated by surface engineering. This paper reviews the advances in regulating droplet impact behavior from the perspective of symmetry by modifying solid surfaces from the following aspects: chemical modification and physical structure regulation, in which the symmetry is discussed from mirror symmetry and rotational symmetry. Firstly, the symmetry of the droplet impact dynamics and its influencing factors are introduced. Then the modulation of droplet impact symmetry, using homogeneous and heterogeneous chemically modified solid surfaces, is summarized. The following presents the influence of physical structures, from micro to macro scale compared to the droplet size, on the droplet impact symmetry. Finally, the future challenges and opportunities of the droplet impact behavior regulation are discussed.

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CiteScore
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