粘弹性
下降(电信)
跌落冲击
润湿
材料科学
气泡
振荡(细胞信号)
机械
表面张力
工作(物理)
复合材料
物理
热力学
化学
电信
生物化学
计算机科学
作者
Longquan Chen,Elmar Bonaccurso,Peigang Deng,Haibo Zhang
出处
期刊:Physical review
[American Physical Society]
日期:2016-12-28
卷期号:94 (6)
被引量:104
标识
DOI:10.1103/physreve.94.063117
摘要
In this work, we experimentally investigate the impact of water droplets onto soft viscoelastic surfaces with a wide range of impact velocities. Several impact phenomena, which depend on the dynamic interaction between the droplets and viscoelastic surfaces, have been identified and analyzed. At low We, complete rebound is observed when the impact velocity is between a lower and an upper threshold, beyond which droplets are deposited on the surface after impact. At intermediate We, entrapment of an air bubble inside the impinging droplets is found on soft surfaces, while a bubble entrapment on the surface is observed on rigid surfaces. At high We, partial rebound is only identified on the most rigid surface at We≳92. Rebounding droplets behave similarly to elastic drops rebounding on superhydrophobic surfaces and the impact process is independent of surface viscoelasticity. Further, surface viscoelasticity does not influence drop spreading after impact-as the surfaces behave like rigid surfaces-but it does affect drop recoiling. Also, the postimpact drop oscillation on soft viscoelastic surfaces is influenced by dynamic wettability of these surfaces. Comparing sessile drop oscillation with a damped harmonic oscillator allows us to conclude that surface viscoelasticity affects the damping coefficient and liquid surface tension sets the spring constant of the system.
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