毛细管力

PS微球在固-液界面的弯月面处进行阵列组装的过程中，吸附力、浮力和毛细管力使微球成核并生长成为密排的胶体晶体。

In the course of PS sphere assembly in meniscus at the solid / liquid interface , the absorption force , flotage and capillary force are responsible to the nucleation and growth of colloid crystal .

PLLA发生熔融时，能够产生毛细管力，促进HAP致密化，改善其烧结性能。

The molten PLLA could enhance the particle rearrangement and densification of HAP by capillary force , which would lead to the improvement of sintering properties of HAP .

随着多孔介质毛细管力的增加，CO2驱替效率降低，系统达到稳定状态的时间缩短。

The displacement efficiency and the time needed for achieving system stability both decline with increasing capillary pressure .

此外，随着毛细管力的增加，毛细管力对驱替效率和稳定时间的影响逐渐减小；（4）毛细管力的非均质性是造成CO2饱和度的最终不规则分布主要原因之一。

Further , with the increase of capillary pressure , its influence on the displacement efficiency and the steady time also decrease ;( 4 ) the capillary heterogeneity may lead to the anomalous distribution of CO2.Besides .

以聚苯乙烯微球（polystyrenesphere，PS）和超细TiO2纳米粉为原料，采用协同组装法制备了TiO2多孔薄膜。在组装过程中，TiO2纳米粉通过毛细管力可以直接组装在模板微球的间隙内。

Ordered TiO2 porous films were fabricated by a cooperative assembly method using polystyrene sphere ( PS ) and ultrafine TiO2 particles , in which ultrafine TiO2 particles were directly assembled in the voids of PS while the template was being assembled by capillary forces .

基于毛细管力流体自装配系统的建模与仿真

Modeling and Simulation of Fluidic Self-Assembly ( FSA ) System Using Capillary Forces

表面活性剂对毛细管力的影响研究

Influence of surface - active agent on capillary pressure

毛细管力总是趋向于使非润湿相占据较大的孔隙空间。

Capillary power always tends to making the nonwetting phase occupy larger pore space .

毛细管力是油（气）初次运移的动力吗？

Is capillary power a driving force for the primary migration of oil and gas ?

油墨渗透由外部的印刷压力和纸张的毛细管力共同作用。

The interaction of the pressure and the capillary make the ink to enter the paper .

此外，本文对还毛细管力非均质性捕获机制进行了实验验证和数值分析。

The capillary heterogeneity trapping mechanism is also verified and further investigated using both numerical and experimental methods .

气体相对湿度影响颗粒间含水量，进而影响颗粒间的毛细管力。

Relative humidity influences the moisture content between particles , so that the capillary forces between particles increase .

建立了考虑储层变形和毛细管力影响的等组成膨胀的计算模型，分析了等组成膨胀过程的相态特征变化。

The calculation model of CCE considering capillary force and reservoir deformation is constructed and phase behavior is analysed .

成岩作用、构造作用、毛细管力作用、差异渗透作用和充填作用等是压力封闭层形成的主要机制。

Diagenesis , tectonization , capillarity , differential osmosis and filling are the main mechanisms of the seal formation .

在古流体势模拟计算过程中，考虑到储层毛细管力和断层连通性的影响。

The capillary pressure of reservoir bed and the conductive efficiency of fault are considered in the analogue calculation .

在静水条件下，游离相天然气运移的主要动力是浮力，阻力是毛细管力。

Main driving force for migration of separate phase natural gas is buoyancy , and resistance is capillary force .

控制深盆气富气区块成藏机理的动力是气体膨胀力、毛细管力和浮力，它们在深盆气富气区块成藏过程的不同阶段具有不同的表现和控制作用。

The controlling forces include gas expanding force , capillary pressure and buoyancy , which play different roles during different stages .

微灌等量出流毛管管径遗传算法优化设计基于毛细管力流体自装配系统的建模与仿真

Genetic Algorithms Optimum Design of Micro-irrigation Uniform-water-discharge Laterals Diameter Modeling and Simulation of Fluidic Self-Assembly ( FSA ) System Using Capillary Forces

对压渗法浸渗过程动力学进行理论分析后，计算出毛细管力、粘滞阻力。

After the analyze of infiltration dynamics in theory , the numerical value of capillarity pressure and viscidity resistance can be calculated .

建立了一种计算模型，用于计算基于毛细管力流体自装配系统表面自由能。

A purely geometric model is built to calculate the difference in surface free energy of fluidic self-assembly system using the capillary forces .

离心法是利用离心力克服储集层岩样的毛细管力，对中高孔隙度渗透率储层很有效；

The centrifuging method is to overcome the capillary force with centrifugal force , so it is effective in medium-high porosity and permeability reservoir .

建立了考虑储层孔隙体积变化和毛细管力的衰竭过程相平衡数学模型，分析研究了孔隙体积变化和毛细管力对衰竭过程相态行为的影响。

The mathematical model of phase equilibrium simulating depletion process considering pore volume change and capillary force is constructed and phase behavior is analysed .

在运载层中推动油气运动的作用力主要是浮力和毛细管力，而盖层则起着毛细管阻力作用。

In delivery layers , the efforts driving hydrocarbon are mainly buoyancy and capillary force , and caprock plays an role of capillary resistance .

研究结果表明实验采用的表面活性剂能明显降低毛细管力和气&液表面张力；

The results show the surface-active agent used by the experiments can reduce the capillary pressure and the surface tension between gas and liquid obviously .

本文在区域地质概况研究的基础上，挑战了传统流体势算法，将毛细管力引入到流体势计算当中。

On the basis of regional geology study , this paper challenges the traditional flow potential algorithm , and puts the capillary force into flow potential .

实验采用的表面活性剂能降低毛细管力对气体渗流的影响，从而提高气相渗透率。

The surface-active agent used by the experiments can decrease the influence of the capillary pressure on gas percolation , so that increase the gas phase permeability .

增水法是利用储集层岩样的毛细管力达到不同的含水饱和度值确定储集层的饱和度指数。

The water increment method is to determine the saturation exponent ( n ) by using the capillary force in the reservoir samples to obtain different water saturations .

指出外来流体在油、气层中的毛细管力是控制水锁效应的主要因素，并用渗速率恢复试验加以证实。

It is verified by permeability recovery experiment that the capillary tube force of extraneous fluids in oil-gas formations is the main factor of controlling water lock effect .

结果表明：外加磁场减缓了磁性液丝的破裂过程，磁场力类似于非牛顿流体中的弹性行为，在一定程度上抵消了毛细管力。

The results show that the magnetic field slows down the filament pinch-off . The magnetic force expresses alike a kind of elastic behavior to counteract the capillary force .

在浮力、水动力和毛细管力的共同作用下，油（气）呈间歇性运动，这在物理模拟实验中已得到证实。

Under the joint action of buoyancy , hydrodynamic force and capillary power , oil ( gas ) moves intermittently . This has been verified in the physical simulation experiment .