本文利用微重力落塔实验研究了Bond数改变时,PTFE和铝板表面上正滴和倒滴接触角的动态变化。实验发现液滴接触角与Bond数的大小有关,当Bond数趋于0时,还与其放置状态有关。本文采用VOF方法对Bond数变化引起的液滴形状及内部流动变化进行二维数值模拟,结果显示液滴内部的流动控制着液滴的外形和接触角。
The behaviors of liquid drops in microgravity have been experimentally performed in Beijing 3.6 s Drop Tower. Contact angle dynamic behaviors of sessile and pendant liquid drops on PTFE and Aluminum were measured and analyzed for varying Bond number. It was found that Bond number had direct influence on the drop contact angle. And the drops with different status (sessile or pendant) also exhibited dissimilar contact angle behaviors when Bond number closed to zero. For comparison, the VOF methodology was introduced to analyze numerically the influence of Bond number on the shapes and inner bulk flow fields of liquid drops. It indicated that the bulk flow could influence the shape and contact angle of drops evidently.
参考文献
| [1] | Amrish K. Panwar;S. K. Barthwal;S. Ray .Effect of evaporation on the contact angle of a sessile drop on solid substrates[J].Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology,2003(10):1321-1329. |
| [2] | Y. Takata;S. Hidaka;J.M. Cao;T. Nakamura;H. Yamamoto;M. Masuda;T. Ito .Effect of surface wettability on boiling and evaporation[J].Energy,2005(2/4):209-220. |
| [3] | S. N. Reznik;A. L. Yarin .Spreading of an axisymmetric viscous drop due to gravity and capillarity on a dry horizontal wall[J].International Journal of Multiphase Flow,2002(9):1437-1457. |
| [4] | David Brutin;ZhiQuiang Zhu;Ouamar Rahli;JingChang Xie;QuiSheng Liu;Lounes Tadrist .Sessile Drop in Microgravity: Creation, Contact Angle and Interface[J].Microgravity science and technology,2009(Suppl.1):67-76. |
| [5] | Qiang Yu;Shijie Cai;Zhiqiang Zhu;Qiusheng Liu;Binghong Zhou .Droplet Image Feedback Control System in Evaporation Experiment[J].Microgravity science and technology,2010(2):p.139. |
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