计算结果表明,汽液界面存在热毛细波。
It is shown that there exist thermal capillary waves in the liquid-vapor interface.
能够形成气液界面和模拟生物力学的刺激。
It can also form air liquid interface and analog biomechanics incentives.
研究了与固液界面形状有关的晶体光学不均匀性。
The optical homogeneity related the shape of solid liquid interface was studied.
获得了固液界面形状与主要工艺参数间的关系式。
A linear equation about the shape and position of the solid liquid interface with main technology parameters was gained.
随着晶体的生长,固液界面的轴向温度梯度逐渐减小。
Along with crystal growth, the axial temperature gradient at the interface of liquid-solid was reduced.
研究表明,利用分形理论可以较好的反映汽液界面的特性。
The study indicates that the fractal theory can reveal the characters of the liquid-vapor interface very well.
用该晶体生长炉可以获得平整的固液界面,使晶体稳定地生长。
If the crystal growing furnace is used, a smooth solid-liquid interface can be obtained to ensure that crystal can grow stably.
气液界面气体传输问题对于科学和工程的许多领域是至关重要的。
The transfer of gases across air-water interface is critically important to many fields of science and engineering.
为了获得高质量的单晶,固-液界面面必须平滑,甚至是平界面。
In order to produce high quality single crystal, the solid liquid interface morphology must be smooth, even be plane.
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。
The surface evaporation is influenced by vapor temperature, vapor-liquid interfacial temperature and vapor-liquid pressure difference.
本文综合介绍了固液界面双电层的形成与结构以及几种固液界面模型。
This article deals with the formation and the structure of the electric double layer at the solid-liquid interface and a few models of such an interface are presented.
当晶体溶解在不饱和溶液中时,分子就会在固液界面处产生相应的扩散。
Crystals in an unsaturated solution dissolve, with subsequent diffusion away from the solid-liquid interface.
固液界面处温度的精密测量是晶体生长动力学研究的一个重要实验数据。
In studying the kinetics of crystal growth from the melt, it is extremely important to measure the crystallization front temperature.
随着固液界面向上移动,液相区自然对流逐渐增强,流动状态不断变化。
With the solid-liquid interface moving upwards, the effect of natural convection is enhanced and the flow patterns change continually.
对定向凝固区域熔化液态金属冷却法的固液界面前沿温度梯度进行了测定。
The temperature gradient in front of S/L interface was measured on Zone Melting Liquid Metal Cooling(ZMLMC) directional solidification apparatus.
本文研究探讨了微电解反应过程中硝基苯降解的情况,这是固液界面过程。
This paper has studied and discussed the reducing of nitrobenzene in the microelectrolysis reaction course, which is a solid-liquid interface course.
进而计算了内芯与液滴的界面张力,这种方法可用于一般固液界面张力的测量。
Moreover, the interfacial tension coefficient of the inner core and droplet is derived, which can be used to measure general solid-liquid interfacial tension.
电化学扫描探针显微镜(ECSPM)已成为研究固-液界面结构的有力的工具。
Electrochemical scanning probe microscopes (ECSPM) have become one of the most powerful techniques for studies of solid liquid interfaces.
用流动法测定了大豆蛋白质在气液界面上的表面过剩浓度并回归了线性吸附方程。
Furthermore, surface excess concentration of soybean protein at gas liquid interface was measured by fluid method.
只有通过调节工艺参数,维持固液界面的良好位置,才能拉铸出表面光滑的线材。
Only adjusting technique factors with the balance and keeping a good place of the interface between solid and liquid, can the smooth ZA alloy line be continuously pulled out.
另一种方法是基于导热反问题解法,通过导热反问题求解得到汽液界面的热流通量。
The second method is based on converting an interface estimated heat flux, which was obtained by using inverse heat conduction solution, to ammonia mass absorbed.
微气泡在水体中形成高分散气液界面,可起到气浮净水,氧化有机物,增氧的作用。
When numerous bubbles stay in the water , the high dispersed interface between gas and liquid can form, whose effects involve such as floatation, oxidation, enriching the oxygen of water.
本文还对ACRT引起的强迫对流对固液界面形状、生长条纹和芯的影响进行了讨论。
The influences of ACRT on solid-liquid interface, growth striation and formation of core have been discussed.
本文概括论述了大分子在固——液界面上吸附的一般特征以及理论和实验研究的现状。
This article surveys the general features of macromolecular adsorption and the present status of theoretical and experimental studies on the adsorption of macromolecules at solid-liquid interfaces.
在不考虑熔区长度不变的条件下,固液界面前沿的温度梯度随抽拉速率的增加而增加。
If the length of melted zone is thought invariable for a given kind of alloy, the temperature gradient increases with the rising of the EB power and zone melting rate.
本文根据紊动扩散理论及气液界面质量传递过程,提出了紊动水体复氧过程的概化模型。
Based on turbulent diffusion theory and the mechanism of liquid-gas interfacial mass transfer, a conceptual model of turbulent re-aeration process is proposed.
倒置显微镜观察,气液界面培养可以形成连续的上皮细胞层,细胞和载体之间连接较牢固。
The results of the inverted phase contrast microscope showed that successive layers of epithelial cells could be cultured on the air liquid interface, and the joint of cell and carrier was firm.
同时通过改变石英坩埚、石墨托厚度,冷源半径等几何参数来达到控制固液界面形状的目的。
In addition, the solid liquid interface shape was controlled by changing geometric parameters, such as quartz crucible, graphite support thickness and cooling radius.
同时通过改变石英坩埚、石墨托厚度,冷源半径等几何参数来达到控制固液界面形状的目的。
In addition, the solid liquid interface shape was controlled by changing geometric parameters, such as quartz crucible, graphite support thickness and cooling radius.
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