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Predicting shape and stability of air–water interface on superhydrophobic surfaces comprised of pores with arbitrary shapes and depths

机译：预测由任意形状和深度的孔组成的超疏水表面上空气-水界面的形状和稳定性

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摘要

An integro-differential equation for the three dimensional shape of air–water interface on superhydrophobicsurfaces comprised of pores with arbitrary shapes and depths is developed and used to predict the static critical pressure under which such surfaces depart from the non-wetting state. Our equation balances the capillary forces with the pressure of the air entrapped in the pores and that of the water over the interface. Stability of shallow and deep circular, elliptical, and polygonal pores is compared with one another and a general conclusion is drawn for designing pore shapes for superhydrophobicsurfaces with maximum stability.

机译：建立了超疏水表面上由任意形状和深度的孔组成的空气-水界面的三维形状的积分微分方程，并将其用于预测静态临界压力，在该压力下，这些表面偏离了非润湿状态。我们的方程式平衡了毛细作用力和截留在孔隙中的空气压力以及界面上的水的压力。将浅孔和深孔，椭圆形孔和多边形孔的稳定性进行了比较，得出了设计具有最大稳定性的超疏水性表面的孔形状的一般结论。

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Emami B.; Tafreshi Dr. Hooman Vahedi; Gad-el-Hak M.; Tepper Gary C.;
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年度 2012
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1. Predicting shape and stability of air-water interface on superhydrophobic surfaces comprised of pores with arbitrary shapes and depths [J] . B. Emami, H. Vahedi Tafreshi, M. Gad-el-Hak, Applied Physics Letters . 2012,第1期

机译：预测由任意形状和深度的孔组成的超疏水表面上的空气-水界面的形状和稳定性
2. Predicting shape and stability of air-water interface on superhydrophobic surfaces with randomly distributed, dissimilar posts [J] . B. Emami, H. Vahedi Tafreshi, M. Gad-el-Hak, Applied Physics Letters . 2011,第20期

机译：预测具有随机分布的不同桩的超疏水表面上的空气-水界面的形状和稳定性
3. Optimizing fiber cross-sectional shape for improving stability of air–water interface over superhydrophobic fibrous coatings [J] . Emami B. Applied Physics Letters . 2012,第19期

机译：优化纤维截面形状，以改善超疏水性纤维涂层上的空气-水界面稳定性
4. A Sharp-Interface Cartesian Grid Method for Computations of Droplet Impact and Spreading on Surfaces of Arbitrary Shape [C] . S. Krishnan, H. Liu, S. Marella, IUTAM Symposium on Computational Approaches to Multiphase Flow . 2006

机译：一种尖锐接口笛卡尔栅格方法，用于计算液滴冲击和在任意形状表面上铺展
5. Measuring the surface dilatational viscosities of surfactant monolayers at the air-water interface by the shape analysis of deforming pendant drops. [D] . Lorenzo, Jose Miguel. 2001

机译：通过变形悬垂液滴的形状分析，测量空气-水界面处表面活性剂单层的表面膨胀粘度。
6. The Shape of Heavy Droplets on Superhydrophobic Surfaces [O] . Yang Yu, *, Cunjing Lv, 2020

机译：超疏水表面上重液滴的形状
7. Predicting shape and stability of air–water interface on superhydrophobic surfaces with randomly distributed, dissimilar posts [O] . Emami B., Tafreshi Hooman Vahedi, Gad-el-Hak M., 2011

机译：预测具有随机分布，不相似立柱的超疏水表面上空气-水界面的形状和稳定性

Predicting shape and stability of air–water interface on superhydrophobic surfaces comprised of pores with arbitrary shapes and depths

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