1·The technique of Squeeze Liquid Film Damping is adopted in precise boring.
在精镗孔加工中采用挤压液膜阻尼技术。
2·The exchange-adsorption rate is mainly controlled by liquid film diffusion;
吸附交换速率主要受液膜扩散控制;
3·The results showed that the sorption was controlled by the liquid film diffusion;
静态吸附结果表明:吸附属于液膜扩散控制机理;
4·The results show that the adsorption kinetic is controlled by liquid film diffusion.
结果表明,动力学吸附过程为液膜扩散控制;
5·Distribution of back fall liquid film of vertical water jet of a sort of nozzle is studied.
研究了相同内部型线、不同大小喷嘴垂直水射流回落液膜的分布规律。
6·A simplified dynamic model of air condenser and the model of its liquid film are driven in this paper.
本文建立了空气冷凝换热器简化动态模型及凝结液膜厚度模型。
7·Conservations of mass, momentum, and energy are used to determine liquid film thickness and temperature.
液膜厚度、速度与温度等参数通过求解液膜的质量守恒、动量守恒、能量守恒方程获得。
8·Criterion for gas flow pressure loss is presented for rotating liquid film heat and mass transfer device.
提出了旋转液膜气液传热传质设备的气体压力损失的准则关系式。
9·The thin liquid film formed on a solid surface can significantly enhance the heat transfer of micro scale.
固体表面上形成的蒸发薄液膜,对微细空间内的传热有重要强化作用。
10·The rheological behavior of nanometer-thick liquid film has been predicted by Molecular Dynamics Simulation.
本文以分子动力学方法模拟了纳米级液体薄膜的流变特性。