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superfine particle

中文翻译超微粒子

同义词释义

    1)ultrafine particle,超微粒子2)Ultrafine particles,超微粒子3)ultrafine powder,超微粒子4)superfine particle,超微粒子5)Co 2O 3 ultrafine particles,Co2O3超微粒子6)Ultrafine nickel particle,超微镍粒子

用法例句

    Quantum size effect and photocatalytic properties of ZnO ultrafine particles;

    ZnO超微粒子的量子尺寸效应和光催化性能

    It was found that under a certain condition, the photocatalytic oxidation rate of SO 2 over ZnO ultrafine particles (UFP) is higher.

    结果表明 ,在一定的反应条件下 ,ZnO超微粒子光催化SO2 氧化的转化率较高 ,32 0℃下焙烧的ZnO超微粒子上SO2 氧化的转化率高达 99% 。

    The ultrafine particles were thermally treated at different temperatures from 473 K to 1?073 K.

    利用Raman 激光光谱,XRD, TEM,SEM 和UVVis 等手段研究了TiO2 超微粒子的量子尺寸效应与光吸收特性。

    Methods A new type of dispersed phase── composite ultrafine particles (UFP) was obtained by the method of microemulsion, which was used to mix with silicon oil.

    目的得到一种能够满足工程应用要求的高性能电流变液体,方法用微乳液法得到一种复合材料的超微粒子并作为分散相与硅油混合,得到3种不同体积分数的电流变液体,分别测试其在不同温度、电场强度、剪切率下电致应力和表观粘度的变化规律,结果大量的系统测试表明,用超微粒子制成的体积分数为30%的这种新型电流变液体具有明显的电流变效应,结论双电层极化对液体的电流变效应具有重要影响。

    A concise introduction has been given for the properties, preparations and applications of ultrafine particles, and the choice of preparation technology of ultrafine particles has been especially explained in detail.

    超微粒子的特性、制备和应用作了简明的介绍。

    PbTiO 3 polar ultrafine powder derived from sol gel process is dispersed in liquid and epoxy matrices.

    将溶胶-凝胶工艺制备的PbTiO3超微粒子分散在液体和环氧树脂中,研究这类0-3型复合材料在不同电场作用下材料的光散射和光透过率以及材料吸收边的影响规

    In this paper, the development status of ultrafine powder and its importance in the manufacture of advanced materials and functional devices have been reviewed.

    本系列介绍了国内外超微粒子技术的发展概况及其在新材料、新的功能元器件制造中的地位与作用,重点介绍了在新材料的研制过程中利用新生态超微粒子的高反应活性、高分散性、易流态化的优异性能与物理气相沉积,化学气相沉积、外延生长、气相复合以及溶-凝胶技术等新技术结合来合成材料的新工艺、新思路。

    In this paper,the important methods for superfine particle design are reviewed.

    本文综述了目前进行微粒子设计的几种主要方法 ,并对设计出的各种具有不同功能的超微粒子的应用作了介

    Preparation and Thermodynamic Research of Co_2O_3 Ultrafine Particles;

    Co_2O_3超微粒子的制备及其热力学性质研究

    Lanthanum Ultra-Fine Particles of La_2O_3-Mo Thermionic Cathode Surface Active Layer

    镧钼热阴极表面活性层中的镧超微粒子

    Research of Application on Reductive Amination of Ultrafine Ni/SiO_2 Catalyst;

    镍基负载型超微粒子催化剂上的还原胺化反应应用研究

    Experimental and Numerical Studies on Preparing Ultrafine Particles by Reactive Precipitation Process;

    反应沉淀法制备超微粒子过程的实验与模型化研究

    Effect on Study and Preparation of Fine Ceramics by Using Monodispersed Ultramicro Particles;

    单分散超微粒子粉体在精细陶瓷制备和研究中的影响

    Preparation of Ultrafine Complex Solid Superacid Catalysts and Their Application in Esterification Reactions;

    超微粒子复合固体超强酸催化剂的制备及其在酯化反应中的应用研究

    micro-size particles

    微米级粒子,超细粒子

    The Research of Character of Microemulsion and Preparation of Nickel Sulfide Ultrafine Particles;

    微乳液的性质及超微细硫化镍粒子的制备研究

    At least, in weak interaction, neutrinos may be superluminal particles.

    至少在弱相互作用中,中微子可能是超光速粒子。

    Study on Magnetic Nanoparticles for Cancer Local Therapy;

    用于癌症靶向治疗的超微磁性载体粒子研究

    Analysis of Genetic Effects on Grain Oil Content in Micro-endosperm Super-high Oil Maize

    微胚乳超高油玉米子粒含油率的遗传效应分析

    Preparation of nickel sulfide nanoparticles by the method of microemulsions

    利用微乳液制备超细硫化镍粒子的研究

    Ultrastructure and Mechanical Property of Neutrophilic Granulocyte and Leukemia Cell K562 Detected by AFM

    原子力显微镜对中性粒细胞与K562细胞超微结构及机械性能的探测

    Studied on the Lipid Changes of Micro-endosperm Super-high-oil Corn in the Process of Germination

    微胚乳超高油玉米种子萌发过程中子粒脂类化合物含量变化研究

    A discrete particle, such as a photon or an electron.

    微粒有某种特性的微粒,如光子或电子

    in the form of ultramicroscopic solid or liquid particles dispersed or suspended in air or gas.

    以超显微的固体、液体粒子的形式分散或悬浮在空气中的。

    Study of Optical Nonlinearity for Ultrafine PbS Particles in Perfluorocarboxylated Cation-Exchanged Films

    全氟羧酸离子交换膜内硫化铅超微粒的光学非线性研究

    Study of Optical Properties of Intramolecular Charge-transfer Compounds in Solution and Their Supraparticle Dispersion;

    分子内电荷转移化合物溶液及超微粒分散体系的光学性质研究

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