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作 者:李德隆[1] 王晓东[2] 许心皓[1] 段远源[1]
机构地区:[1]清华大学热科学与动力工程教育部重点实验室,北京100084 [2]北京科技大学机械工程学院,北京100083
出 处:《化学工程》2009年第11期1-4,共4页Chemical Engineering(China)
基 金:国家自然科学基金重点资助项目(50636020)
摘 要:油墨干燥速率是影响印品质量的关键因素之一,干燥通常是油墨溶剂渗透和蒸发共同作用的结果。文中建立了考虑纸张和油墨内部导热、油墨内固体骨架等复杂因素的一维油墨干燥模型。渗透部分基于毛细管束模型,引入了蒸发对油墨黏度的影响;蒸发部分引入了油墨溶剂相分数的概念,分析了各界面处应满足的边界条件,实现了渗透和蒸发的耦合计算。模型揭示了孔隙率对蒸发速率的影响、对流换热系数对渗透速率的影响,能很好地再现实验数据。Ink drying rate is one of the key factors influencing the quality of printing. Generally, the drying is carried out by simultaneous penetration and evaporation. A one-dimension drying model for ink film on plain paper was established, including the effects of the heat conduction in ink and paper and the solid components in ink. For penetration, the effect of evaporation on ink viscosity was introduced based on the bundles of capillary tubes. For evaporation, the fraction idea of the ink solvent phase was introduced, and the boundary conditions were analyzed, which should satisfy the coupled calculation of penetration and evaporation. The coupled model was used to study the influence of porosity on evaporation rate and that of heat transfer coefficient on penetration rate, and can recall the experimental data.
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