1.
The variation of the operating condition did not change the distributive range magnitude of the dispersed phase droplet.
螺杆转速和挤出机产量的变化对末端分散相液滴直径的分布范围影响不大。
2.
The Study of Drop Coalescence in the Liquid-Liquid Turbulent Dispersions;
湍流液—液分散体系中液滴聚并过程的研究
3.
aqueous dispersion
分散水相,水分散体,水分散液
4.
EFFECTS OF CONVECTIONS AND MOTIONS OF MINORITY PHASE DROPLETS ON SOLIDIFICATION OF MONOTECTIC ALLOYS
对流和弥散相液滴运动对偏晶合金凝固的影响
5.
Analysis of 2,4-D butylate·prometryne·acetochlor 40% EC by HPLC
40%2,4-滴丁酯·扑草净·乙草胺乳油的液相色谱分析
6.
SIMULATION ANALYSIS OF DROPLET PHASE-CHANGE PROCESS IN A DEEP-SPACE RADIATION ENVIRONMENT
深空环境下液滴辐射相变过程分析模拟
7.
Determination of 2,4-D butylate sulcotrione emulsifiable concentrate by HPLC
2,4-滴丁酯·磺草酮乳油的高效液相色谱分析
8.
Effects of the Dispersed Droplet Sizes on the Critical Behavior of Aqueous and Nonaqueous Microemulsions;
分散液滴的尺寸对含水和非水微乳体系临界行为的影响
9.
The axial droplet velocity profile is nearly linear across the pipe section, and is different from the axial gas velocity profile.
液滴速度与气相速度分布不同,在垂直方向上液滴的轴向速度近乎呈线性分布。
10.
Those having a low HLB value have a high affinity for oily phases and render W/ O emulsions.
在这种情况下,抗原相由分散成一系列的油相小滴组成。
11.
Simultaneous HPLC determination of 3 components of compound ofloxacin ear drops
高效液相色谱法同时测定复方氧氟沙星滴耳液中3种组分的含量
12.
Determination of chloramphenicol and dexamethasone in eye dro ps by HPLC
高效液相色谱法同时测定氯霉素地塞米松滴眼液两组分的含量
13.
Determination of Two Components in Tetracaine Hydrochloride Eye Drops by HPLC
高效液相色谱法测定盐酸丁卡因滴眼液中两组分含量
14.
Determination of BHC and DDT in Drinking Water by Half-sequence and High Ratio Liquid-liquid Extraction Gas Chromatographic Method
半连续高浓缩比液液萃取气相色谱法分析饮用水中的六六六、滴滴涕
15.
Si_3N_4/Inconel600 Partial Liquid Phase Diffusion Bonding;
Si_3N_4/Inconel600部分液相扩散连接研究
16.
(of a fluid) having been propelled about in flying drops or masses.
(指液体)被推动而变成飞散的滴或者团。
17.
Determination of PAEs in Baiyang Lake by Dispersive Liquid-liquid Microextraction and Gas Chromatography
分散液液微萃取-气相色谱法测定白洋淀水中PAEs
18.
Research on the Breakdown Characteristics of the Two-Phase Mixture of Gas and Micron Water Droplets;
微米级液滴气液两相体击穿特性研究