| 1. | Knowledge of the particle diameter and fluid properties immediately defines the region of flow and the applicable relations .
已知颗粒直径和流体性质,就可直接确定流动区域和适用的关系式。 |
| 2. | With methyl methacrylate the particle diameter increases linearly with conversion indicating particle aggregation .
采用甲基丙烯酸甲酯时,粒子直径随转化率呈直线增大,这就表明粒子发生了聚集。 |
| 3. | Densitometry was used to calculate peak particle diameters
使用密度计去推算粒孚的最大直径。 |
| 4. | Average particle diameter
平均粒子直径 |
| 5. | Median particle diameter
中位粒径 |
| 6. | Effects of different preservation conditions on particle diameter of tanshinone liposome
不同的保存条件对丹参酮脂质体粒径的影响 |
| 7. | Influence of particle diameter on pyrolysis property and kinetic parameter of oil shale
颗粒粒度对油页岩热解特性和动力学参数的影响 |
| 8. | The effect of volume fraction and particle diameter on properties of petroleum - based erf
体积分数及粒径对石油基电流变液特性的影响 |
| 9. | The result gave the optimal filter particle diameter , layer thickness and filtration velocity
根据实验结果,确定了最佳的过滤介质粒径、过滤层厚度和过滤速度。 |
| 10. | At the same time , characteristic parameters such as particle diameter , concentration of bubble are provided in this paper
同时给出了水垫塘内气相(气泡)的特征参数如粒径、浓度分布等。 |
