1.
Effects of operational parameters of crystallization of cytidine-5′-monophophate on its crystal size distribution
操作条件对5′-单磷酸胞苷晶体粒度分布的影响
2.
Size Distribution Characteristic of the Crystal Fragments after Collision Nucleation
碰撞成核过程形成的破碎晶核粒度分布特征
3.
Studies on the control of crystal size distribution of ceftriaxone sodium in dilution crystallization by seeding
加晶种控制头孢曲松钠溶析结晶产品粒度分布的研究
4.
Constitutive Relations of Polycrystals with Effects of the ODF and Their Measurements;
多晶体材料的力学性质与材料晶粒取向分布的关系及其测量
5.
Effect of TiAl_3 on distribution of TiC particles in aluminum matrix and nucleation of α(Al) grain
TiAl_3对TiC粒子在铝基体中分布及α(Al)晶粒形核的影响
6.
Numerical Simulation on Dynamics Model of Alumina Concentration and Crystal Particle Size during Seeded Precipitation Process;
晶种分解过程中氧化铝浓度及晶体粒度动力学模型的数值模拟
7.
Study on the Condensed Partical Size Distribution at SRM Nozzle Outlet
固体发动机喷管出口凝相微粒粒度分布研究
8.
METHODS AND APPLICATION OF PARTICLE SIZE DISTRIBUTION ANALYSIS FOR CERAMIC POWDERS
陶瓷粉体粒度分布的测定方法与应用
9.
Microstructures and Mechanical Properties of Electro-deposited Nanocrystalline Ni with Broad Grain Size Distribution
电沉积宽晶粒度分布纳米镍的组织结构与力学性能研究(英文)
10.
Effects of ultrasound-assisted freezing on total water content and ice crystals size distribution in frozen wet gluten
超声辅助冷冻对湿面筋蛋白中冰晶粒度分布及总水含量的影响
11.
Cz Crystal Temperature Distribution in the Finite Element Analysis
Cz法晶体生长中温度场分布的有限元分析
12.
Distribution of Grain Size and Grain Angle in Grain Line Structure of Bi_4Si_3O_(12) Micro-crystals
硅酸铋(Bi_4Si_3O_(12))晶列结构中的晶粒尺寸和晶粒夹角分布
13.
Study of Phonon Brillouin Spectrum of Crystal Films
纳米晶体颗粒的声子布里渊光谱研究
14.
Study of Temperature Distribution and Deformation of the End-face in End-Pumped DPL
端面抽运激光晶体热形变及温度场分布研究
15.
Studies on Grain-boundary States in Polysilicon Films FET;
多晶硅薄膜场效应结构的晶粒间界能态分布
16.
The Evaluating Method of the Sample Population Distribution and Distribution of BG Powder
样本总体分布判别方法及含钡硅酸盐玻璃类无机粉体的粒度分布
17.
transistor's impurity distributing tester
晶体管杂质分布测试仪
18.
It was revealed that the fracture of the bolt came from its poor quality including coarse grains and network-like distribution of ferrite along the grain boundaries of original austenite.
结果表明,材质不良——晶粒粗大、素体沿晶界呈网状分布是导致螺杆断裂的主要原因。