Dynamic behavior of droplets impacting on microstructured hydrophobic surfaces

doi:10.16085/j.issn.1000-6613.2016.12.012

Abstract

Abstract: The dynamic behavior of droplets impacting on micropillared and micropored surfaces was investigated in this paper. The results showed that when the droplet impacted on the micropillared surface,the droplet appeared the spreading and retraction processes. With the increase of Weber number(We),the spreading diameter increased. Meanwhile,the satellite droplets appeared. However,the time to reach the maximum spreading diameter was the same. When the droplet with the same velocity(the same We) impacted on micropillared surfaces with different pitch between micro pillars,the maximum spreading diameter decreased with the increase of the pitch,and the wetting state was instability. The wetting state transited from the Cassie state to the Wenzel state during the spreading process. When the pitch was small,The smaller the adhesion work is,the more likely to occur to the Cassie state. Moreover,the dynamic behaviors of a droplet impacting on micropored hydrophobic surfaces were compared with the micropillared surfaces. The droplet was spreading and retracting on micropored surfaces. In the impacting process,the wetting state did not transit into the Wenzel state. The phenomenon was analyzed by using the established physical model.

Key words: droplets, impact, surface, microstructure, instability

摘要： 对去离子水滴撞击不同几何尺寸显微结构方柱和方孔状疏水表面的动态特性进行了研究。结果表明：当液滴以不同速度撞击微方柱疏水表面时，液滴展现铺展和回缩过程，且随着韦伯数（We数）增大，最大铺展直径增大，并伴随卫星液滴出现，但到达最大铺展直径的时间一致；而当液滴以相同的速度（We数相同）撞击间距不同的微方柱疏水表面时，液滴的最大铺展直径随着间距的增大而减小，且铺展过程会液滴浸润状态变得不稳定，发生由Cassie向Wenzel状态的浸润转变。当微方柱间距较小时，液滴受到的黏附功越小，越易发生向Cassie状态的转变；液滴撞击微方孔疏水表面时，液滴以规则的圆环状向外铺展和回缩，最后呈现近似规则的椭球状，不会发生向Wenzel状态的浸润转变，利用建立的物理模型对前述现象进行了分析。

关键词: 水滴, 撞击, 表面, 显微结构, 不稳定性

CLC Number:

TQ051.5

SHI Qiming, JIA Zhihai, LIN Qiyan. Dynamic behavior of droplets impacting on microstructured hydrophobic surfaces[J]. Chemical Industry and Engineering Progree, 2016, 35(12): 3818-3824.

施其明, 贾志海, 林琪焱. 液滴撞击微结构疏水表面的动态特性[J]. 化工进展, 2016, 35(12): 3818-3824.

References

[1] WORTHINGTON A M.On the forms assumed by drops of liquids falling vertically on a horizontal plate[J].Proceedings of the Royal Society of London,1876,25(171/178):261-272.
[2] LI Xiying,MA Xuehu,LAN Zhong.Dynamic behavior of the water droplet impact on a textured hydrophobic/superhydrophobic surface:the effect of the remaining liquid film arising on the pillars' tops on the contact time[J].Langmuir,2010,26(7):4831-4838.
[3] LI Xiying,MAO Liqun,MA Xuehu.Dynamic behavior of water droplet impact on microtextured surfaces:the effect of geometrical parameters on anisotropic wetting and the maximum spreading diameter[J].Langmuir,2013,29(4):1129-1138.
[4] 杨宝海,王宏,朱恂,等.速度对液滴撞击超疏水壁面行为特性的影响[J].化工学报,2012,63(10):3027-3033.
[5] BARTOLO Denis,JOSSERAND Christophe,BONN Daniel.Singular jets and bubbles in drop impact[J].Physical Review Letters,2006,96(12):124501.
[6] 毕菲菲,郭亚丽,沈胜强,等.液滴撞击固体表面铺展特性的实验研究[J].物理学报,2012,61(18):295-300.
[7] TSAI Peichun,PACHECO Sergio,PIRAT Christophe,et al.Drop impact upon micro-and nanostructured superhydrophobic surfaces[J].Langmuir,2009,25(20):12293-12298.
[8] RAMARAJ Kannan,DEIVANDREN Sivakumar.Drop impact process on a hydrophobic grooved surface[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2008,317(1/2/3):694-704.
[9] MAO Ted,KUHN David,TRAN Honghi.Spread and rebound of liquid droplets upon impact on flat surfaces[J].AIChE Journal,1997,43(9):2169-2179.
[10] CLANET Christophe,BE'GUIN C,RICHARD D,et al.Maximal deformation of an impacting drop[J].Journal of Fluid Mechanics,2004,517(6):199-208.
[11] GAUTHIER Anaïs,SYMON Sean,CLANET Christophe,et al.Water impacting on superhydrophobic macrotextures[J].Nature Communications,2015,6:8001.
[12] PARK Heungsup,CARR Wallance W,ZHU Junyong,et al.Single drop impaction on a solid surface[J].AIChE Journal,2003,49(10):2461-2471.
[13] ATTANE P,GIRARD F,MORIN V.An energy balance approach of the dynamics of drop impact on a solid surface[J].Physics of Fluids,2007,19(1):012101.
[14] 陈石,陶英,沈胜强,等.平壁液滴静态铺展影响因素的研究[J].力学学报,2014,46(3):329-335.
[15] BARTOLO D,BOUAMRIRENE F,VERNEUILÉ,et al.Bouncing or sticky droplets:impalement transitions on superhydrophobic micropatterned surfaces[J].EPL(Europhysics Letters),2006,74(2):299-305.
[16] 贾志海,雷威,贺吉昌,等.粗糙表面振动液滴的浸润状态转变特性[J].高校化学工程学报,2015,29(1):58-63.