柔性膜振动作用下液滴的飞溅

IF 2.4 4区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Micromechanics and Microengineering Pub Date : 2023-08-17 DOI:10.1088/1361-6439/acf13c

Sanghyun Lee, Sangmin Lee

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引用次数: 0

摘要

液滴落在基材上的冲击动力学在喷墨印刷、喷涂和生物打印等各种应用中都是重要的。一般来说，有几个因素，如流体特性(如粘度或表面张力)和基材特性(如表面粗糙度或柔韧性)决定了下落的液滴是扩散还是飞溅。在这项研究中，我们通过实验研究了不同韦伯数(230 < we < 600)和膜刚度(可由施加的拉伸力控制)下液滴在薄柔性膜上的撞击动力学。此外，还考虑了膜振动对冲击性能的影响。在高韦伯数情况下，无论膜刚度如何，飞溅都是主要的。相反，在低韦伯数下，根据膜的刚度，可以观察到飞溅和沉积之间的过渡。总之，在液滴动能不足的情况下，柔性膜振动引起液滴溅射。增加膜的刚度有助于通过减小膜的振动来抑制液滴的飞溅。

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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Splashing of droplet under the vibration effect of flexible membrane

The impact dynamics of a droplet falling onto a substrate is significant in various applications such as inkjet printing, spray coating, and bioprinting. Generally, several factors, such as the fluid properties (e.g. viscosity or surface tension) and substrate characteristics (e.g. surface roughness or flexibility) govern whether falling droplets spread or splash. In this study, we experimentally investigate droplet impact dynamics on a thin, flexible membrane for various Weber numbers (230 < We < 600) and membrane stiffnesses, which can be controlled by the applied tensile force. In addition, the effect of membrane vibration on impact behavior is considered. In the high Weber number regime, splashing is dominant, regardless of the membrane stiffness. In contrast, in the low Weber number regime, a transition between splashing and deposition is observed, depending on the membrane stiffness. In short, flexible membrane vibration induces droplet splashing despite the insufficient kinetic energy of the droplet. Increasing the stiffness of the membrane contributes to the suppression of droplet splashing by minimizing membrane vibration.

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来源期刊

Journal of Micromechanics and Microengineering 工程技术-材料科学：综合

CiteScore

4.50

自引率

4.30%

发文量

136

审稿时长

2.8 months

期刊介绍： Journal of Micromechanics and Microengineering (JMM) primarily covers experimental work, however relevant modelling papers are considered where supported by experimental data. The journal is focussed on all aspects of: -nano- and micro- mechanical systems -nano- and micro- electomechanical systems -nano- and micro- electrical and mechatronic systems -nano- and micro- engineering -nano- and micro- scale science Please note that we do not publish materials papers with no obvious application or link to nano- or micro-engineering. Below are some examples of the topics that are included within the scope of the journal: -MEMS and NEMS: Including sensors, optical MEMS/NEMS, RF MEMS/NEMS, etc. -Fabrication techniques and manufacturing: Including micromachining, etching, lithography, deposition, patterning, self-assembly, 3d printing, inkjet printing. -Packaging and Integration technologies. -Materials, testing, and reliability. -Micro- and nano-fluidics: Including optofluidics, acoustofluidics, droplets, microreactors, organ-on-a-chip. -Lab-on-a-chip and micro- and nano-total analysis systems. -Biomedical systems and devices: Including bio MEMS, biosensors, assays, organ-on-a-chip, drug delivery, cells, biointerfaces. -Energy and power: Including power MEMS/NEMS, energy harvesters, actuators, microbatteries. -Electronics: Including flexible electronics, wearable electronics, interface electronics. -Optical systems. -Robotics.