Coarse-grained molecular dynamics simulations of adhesion on UV-patterned nanometer-thick liquid lubricant films

机译：紫外图案的纳米厚液体润滑剂膜上粘附力的粗粒分子动力学模拟

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Using coarse-graining molecular dynamics, we investigated the adhesive properties of UV-patterned nanometer-thick liquid lubricant films coated on a solid substrate with respect to the approach and withdrawal movements of a solid probe. Same as experimental results, the simulations showed that masked UV irradiation induced a concave-convex surface structure on the lubricant films. As compared with non-UV-irradiated and uniformly-irradiated films, UV-patterned films were characterized by a rapid decrease in adhesion when the solid probe was in contact with the convex region.

机译：使用粗粒度的分子动力学，我们针对固体探针的进近和退回运动，研究了涂覆在固体基质上的UV图案化的纳米纳米级液体润滑剂膜的粘合性能。与实验结果相同，模拟结果表明，遮蔽的紫外线辐射在润滑油膜上产生了凹凸的表面结构。与未照射紫外线和均匀照射的薄膜相比，当固体探针与凸起区域接触时，紫外线图案化的薄膜的粘合力迅速降低。

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《2010 International Symposium on Micro-NanoMechatronics and Human Science》|2010年|p.229-231|共3页
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Coarse-grained molecular dynamics simulations of adhesion on UV-patterned nanometer-thick liquid lubricant films

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