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Rebound behaviors of droplets impacting on a superhydrophobic surface 被引量:4

Rebound behaviors of droplets impacting on a superhydrophobic surface
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摘要 The rebound behaviors of droplets impacting on a self-fabricated superhydrophobic brass surface (WCA=I64.5°) were ob- served and studied by using high-speed-camera. In accordance with energy conversion, theoretical analysis of different behav- iors and rebound mechanism were given. At lower velocities, three behaviors in different velocity ranges were observed: par- tial rebounding, entire rebounding and ejecting during rebounding. At higher velocities, such two behaviors as rebound after splashing and rebound, ejecting after splashing, occurred alternately and exhibited certain periodicity. A function to predict the critical impact velocity is derived from energy conservation condition, and the prediction values tally with the experimental values, with the maximum relative error about 14%. The rebound behaviors of droplets impacting on a self-fabricated superhydrophobic brass surface (WCA=164.5°) were observed and studied by using high-speed-camera. In accordance with energy conversion, theoretical analysis of different behaviors and rebound mechanism were given. At lower velocities, three behaviors in different velocity ranges were observed: partial rebounding, entire rebounding and ejecting during rebounding. At higher velocities, such two behaviors as rebound after splashing and rebound, ejecting after splashing, occurred alternately and exhibited certain periodicity. A function to predict the critical impact velocity is derived from energy conservation condition, and the prediction values tally with the experimental values, with the maximum relative error about 14%.
机构地区 College of Marine
出处 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2013年第5期960-965,共6页 中国科学:物理学、力学、天文学(英文版)
基金 supported by The National Natural Science Foundation of China (Grant No.51109178) Science and Technology Innovation Foundation of NWPU (Grant No.JC20120218)
关键词 SUPERHYDROPHOBIC droplets REBOUND critical impact velocity 行为 疏水表面 液滴 冲击速度 最大相对误差 能量转换 高速摄像机 守恒条件
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