Issue 21, 2020
From the journal:

Soft Matter

Effects of eigen and actual frequencies of soft elastic surfaces on droplet rebound from stationary flexible feather vanes

Chengchun Zhang,ab   Zhengyang Wu,a   Chun Shen, ORCID logo *ab   Yihua Zheng, ORCID logo a   Liang Yang, ORCID logo c   Yan Liu ORCID logo a  and  Luquan Rena  

* Corresponding authors

a Key Laboratory of Engineering Bionics (Ministry of Education), Jilin University, Changchun 130022, China
E-mail: shench@jlu.edu.cn
Tel: +86-0431-85095196

b State Key Laboratory of Automotive Simuflation and Control, Jilin University, Changchun, China

c Centre for Renewable Energy Systems, Department of Energy and Power, Cranfield University, Cranfield, UK

Abstract

The aim of this paper is to investigate the effect of eigenfrequency and the actual frequency of the elastic surface for droplet rebound. The elastic surface used in this study is the stationary flexible feather vanes. A fluid-structure interaction (FSI) numerical model is proposed to predict the phenomenon, and later it is validated by an experiment where droplets impact the stationary flexible feather vanes. The effect of mass and stiffness of the surface is analysed. First, a suitable combination of mass and stiffness of the surface will enhance the drop rebound. Second, a small mass system with a higher eigenfrequency will decrease the minimum contact time. Finally, the actual frequencies of the elastic surface, approximately 75 Hz, can accelerate the drop rebound for all cases.

Graphical abstract: Effects of eigen and actual frequencies of soft elastic surfaces on droplet rebound from stationary flexible feather vanes

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Article information

DOI
https://doi.org/10.1039/D0SM00315H
Article type
Paper
Submitted
23 Feb 2020
Accepted
03 May 2020
First published
05 May 2020

Soft Matter, 2020,16, 5020-5031

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Effects of eigen and actual frequencies of soft elastic surfaces on droplet rebound from stationary flexible feather vanes

C. Zhang, Z. Wu, C. Shen, Y. Zheng, L. Yang, Y. Liu and L. Ren, Soft Matter, 2020, 16, 5020 DOI: 10.1039/D0SM00315H

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