1.
The Analysis of the Effect to the Equivalent Grain of the Gravel in Diameter Made about Its Seepage;
无粘性土等效粒径对渗流影响的效果分析
2.
Nominal diameter is the diameter of a sphere of the same volume as the given particle.
“等容粒径”是某一球体直径,它与某已知的颗粒体积相等。
3.
Augmenting the mixing of size-type binary granular systems in a rotating horizontal drum
滚筒内非等粒径二元颗粒体系增混机理研究
4.
The nominal diameter has little significance in sediment transportation.
等容粒径在沉沙输移中意义不大。
5.
Effect of Packed Sphere on Removal of NO_x by Coaxial Plasma Reactor
填充球粒径对等离子体脱除NO_x的影响
6.
Study on the Particle Count Efficiency at the Most Penetrating Particle Size for High Efficiency Fibrous Filter Media;
高效纤维滤料最易透过粒径计数效率的研究
7.
MATCHING OF PARTICLE SIZES OF WC/Co POWDERS AND SPARK PLASMA SINTERING DENSIFICATION
WC/Co粉体粒径匹配与放电等离子烧结致密化
8.
Particle Size Effect of Nanosize Powders on Nanostructured Zirconia Coating Fabricated by Air Plasma Spraying
纳米颗粒粒径对等离子喷涂法制备氧化锆纳米涂层的影响
9.
Analyses of the Therapeutic Effect about the Anisodiameter PVA Embolotheraping Leiomyoma Uteri
不同直径PVA颗粒栓塞子宫肌瘤的疗效分析
10.
Different sample preparation of particle size on measurement of soil available phosphorus results
不同制样粒径对测定土壤有效磷结果的影响
11.
Comparison of The Drug Action Among Three Kinds of Grain Size of Nux Vomica Powder
三种不同粒径马钱子粉的药效对比研究
12.
Relationship between NaCl aerosol size distribution and testing efficiency for the sodium flame method
氯化钠粒径分布对钠焰法过滤效率的影响
13.
Size Effect on Nitzschia closterium When Exposed to Nutrients of Different Concentrations
不同营养盐浓度下新月菱形藻生长的粒径效应
14.
On the finite element calculation for the equivalent drainage diameter of the plastic drainage plate
塑料排水板等效排水直径有限元计算
15.
Study on Efficiency Scanning Testing System of Most Penetrating Particulate Size for HEPA Filter & ULPA Filter;
高效空气过滤器最易穿透粒径效率扫描测试台的研制
16.
Study on Performance of HEPA ﹠ ULPA Filter Media Based on the MPPS Method;
高效、超高效空气滤纸最易穿透粒径法实验性能研究
17.
Research on Most Penetrating Particulate Size Efficiency Testing System of HEPA Filter;
高效空气过滤器最易穿透粒径效率测试台的研制
18.
Particles in the range of 10 to 150 microns fluidise best and careful selection of the size distributions used leads to higher efficiency.
粒径在10到150微米的颗粒都可以很好地流化,小心地选择粒度分布可以使效率更高。