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。
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;
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;
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;
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。
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。
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。
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。
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。
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。
Whereas, the heat transfer of turbulence liquid film flow is not sensitive to liquid film inlet temperature.
湍流时,热量传递对液膜进口温度的反应不如层流敏感。
With it, some characteristics of the gas film cooling after liquid film vaporized-out point have been revealed.
并从试验中发现了液膜蒸干后气膜段冷却的一些特点。
Conservation of mass, momentum, and energy are used to solve for the liquid film thickness, velocity, and temperature.
通过求解质量守恒、动量守恒、能量守恒方程,获得液膜厚度、速度与温度等参数。
Tube pitch and losses due to liquid film splatter have a very small influence on evaporative heat exchange characteristics.
管间距及液膜溅射损失对蒸发换热特性影响很小。
Kinetic analysis of the liquid film was made with computer, and relative experiment results show that they are in good agreement.
用计算机进行液膜动力学分析,所得实验结果与理论分析吻合较好。
Seal face geometry parameters can be optimized by analyzing regulation of their effect on opening force and liquid film stiffness.
通过分析端面结构参数对密封开启力和液膜刚度的影响规律,可得到端面结构的优化参数。
The dispersion relations for waves on liquid film surfaces were proved and thickness of liquid film was measured by laser diffraction.
利用激光衍射法验证了液体薄膜的色散关系,并应用于液体薄膜厚度的测量。
As the liquid film has self restorability, the utility model not only can ensure safety, but also can be continuously used for a long term.
由于液膜具有自身修复能力,所以本实用新型既保证安全,又能长期连续使用。
When these charged droplets come into contact with the surface of the print they collect any substances deposited on it, creating a thin liquid film.
这些充了电的液滴与指纹表面接触后会吸走其表现上存积的任何物质,产生一块液体薄膜。
Both the thickness of liquid film and the reverse movement of steam and liquid droplet influence the effect of heat transfer during spray cooling.
喷雾冷却时,液膜厚度过大和蒸汽与液滴的逆向运动都会影响沸腾的换热效果。
The invention relates to a square hole-shaped grooving diversion type structured packing which can intensify the turbulent motion of a liquid film.
本发明涉及一种能够强化液膜湍动的方孔型开槽导流式规整填料。
The formation of the rising liquid film on the surface of a horizontal metallic mesh tube in the presence of the temperature field was investigated.
理论分析和试验结果表明,液体在受热的水平金属丝网管壁面能够形成比较均匀的上升薄液膜,可以起到强化传热传质的作用。
The present patent selects a kind of organic high polymer with good hydrophobic performance as the organic phase additives for the milky liquid film.
本专利选择了一类疏水性能好的有机高聚物作为乳状液膜有机相的添加剂。
Based on analysis of flow mechanism, a hydrodynamic model of slug flow in vertical pipes was developed considering the variable thickness of liquid film.
基于流动机理的分析建立了塞状流参数预测模型;模型中考虑了液膜的厚度变化。
In this paper, it is believed that the heat transfer mechanism of phase change in a capillary tube belongs to liquid film conduction and surface evaporation.
本文认为毛细管的相变传热机理为液膜的导热和表面蒸发;表面蒸发受蒸汽温度、汽液界面的温度以及汽液压力差的共同控制。
Applying Nusselt s liquid film theory to the contact melting heat transfer process, we obtain the theoretical formulas convenient to engineering calculation.
应用努谢尔特液体边界层理论,求得了便于工程计算用的接触熔化传热过程的理论解。
The shear stress at the liquid-gas interface plays an important role on characteristics of the hydrodynamics, flow stability and heat transfer of liquid film.
气液界面存在同向或反向切应力时,在一定程度上影响到液膜的水动力学特性和流动稳定性,并改变其热质传递特性。
A theoretical analysis was carried out for evaporative heat transfer of annular two phase flow of liquid film and high velocity air in vertically heated tubes.
通过理论分析,研究了竖直传热管内降膜-高速空气环状两相流的蒸发换热特性。
A theoretical analysis was carried out for evaporative heat transfer of annular two phase flow of liquid film and high velocity air in vertically heated tubes.
通过理论分析,研究了竖直传热管内降膜-高速空气环状两相流的蒸发换热特性。
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