接触角
表面张力
GSM演进的增强数据速率
表面能
弯月面
材料科学
浮动(项目管理)
润湿
浮力
曲面(拓扑)
化学
复合材料
机械
光学
几何学
物理
热力学
计算机科学
数学
工程类
电信
入射(几何)
海洋工程
作者
Feng-Ming Chang,Yu‐Jane Sheng,Heng‐Kwong Tsao
摘要
It is generally believed that a water-repellent surface is necessary for small insects to stand on water. Through a combined experimental and theoretical study, we demonstrate that an object with hydrophilic surface can float with apparent contact angle greater than 90° due to edge effect. The apparent contact angle rises with increasing loading even to a value typically displayed only by superhydrophobic surfaces. On the basis of free energy minimization, two regimes are identified. When buoyancy controls, the meniscus meets the object with the intrinsic contact angle. As surface tension dominates, however, contact angle is regulated by total force balance.
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