Equilibrium Vapor Adsorption and Capillary Force: Exact Laplace-Young Equation Solution and Circular Approximation Approaches

D. B. Asay; M. P. de Boer; S. H. Kim

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Equilibrium Vapor Adsorption and Capillary Force: Exact Laplace-Young Equation Solution and Circular Approximation Approaches

机译：平衡蒸气吸附和毛细作用力：精确的Laplace-Young方程解和圆形近似方法

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The capillary adhesion force of an asperity of radius R as a function of vapor partial pressure is calculated using exact and approximate methods assuming a continuum model. The equilibrium between the capillary meniscus at the asperity and the adsorbate film on the surface is discussed through a disjoining pressure term. It is found that the two methods agree very well over a wide partial pressure range. Without taking into account the effect of the adsorbate film, the theoretical calculation results do not show the experimental partial pressure dependence of the capillary force except near the saturation vapor condition. The experimental capillary force trend with partial pressure can be explained when the presence of the adsorbate film is included in the calculation.

机译：使用精确和近似的方法（假设一个连续模型），计算半径R的凹凸点作为蒸汽分压的函数的毛细管粘附力。通过分离的压力项讨论了粗糙处的毛细管弯液面和表面上的吸附物膜之间的平衡。发现这两种方法在很宽的分压范围内非常吻合。在不考虑吸附物膜的影响的情况下，理论计算结果并未显示毛细管力的实验分压依赖性，除非在饱和蒸汽条件下。当计算中包括被吸附物膜的存在时，可以解释实验性毛细管压力随分压的变化趋势。

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《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 》 |2010年第16期| 共20页
作者
D. B. Asay; M. P. de Boer; S. H. Kim;
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正文语种 eng
中图分类胶粘剂工业 ;
关键词
Capillary forces; nanoscale; disjoining pressure; adsorption; equilibrium;

机译：毛细管力;纳米级;分离压力;吸附;平衡;

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1. Equilibrium Vapor Adsorption and Capillary Force: Exact Laplace-Young Equation Solution and Circular Approximation Approaches [J] . D. B. Asay, M. P. de Boer, S. H. Kim 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 . 2010 ,第15a16期

机译：平衡蒸气吸附和毛细作用力：精确的Laplace-Young方程解和圆形近似方法
2. EXACT SOLUTION OF LARGE DEFORMATION BASIC EQUATIONS OF CIRCULAR MEMBRANE UNDER CENTRAL FORCE [J] . HAO Ji-ping, YAN Xin-li 应用数学和力学（英文版） . 2006 ,第010期

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3. EXACT SOLUTION OF LARGE DEFORMATION BASIC EQUATIONS OF CIRCULAR MEMBRANE UNDER CENTRAL FORCE [J] . 郝际平, 颜心力应用数学和力学：英文版 . 2006 ,第010期

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Equilibrium Vapor Adsorption and Capillary Force: Exact Laplace-Young Equation Solution and Circular Approximation Approaches

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