材料表征

  • 网络material characterization
材料表征材料表征
  1. 太赫兹(THz)电磁波在超快过程探测、材料表征、环境检测、物体成像、医疗诊断、高速光电子器件、宽带移动通信等领域具有广阔的应用前景。

    Terahertz electromagnetic waves have broad application prospects in ultrafast process detection , materials characterization , environmental monitoring , object imaging , medical diagnostics , high-speed optoelectronic devices and broadband mobile communication .

  2. 原位中子衍射材料表征技术的进展

    Progress in materials characterization technique based on in situ neutron diffraction

  3. CVI制备Si3N(4p)/Si3N4透波材料表征与性能

    Characterization and Properties of Si_3N_ ( 4p ) / Si_3N_4 Radome Material Prepared by Chemical Vapor Infiltration

  4. 基于量子力学从头算方法,以SnO2薄膜的材料表征结果为基础,模拟了CO、CH4和O2等在SnO2薄膜表面的物理化学吸附行为。

    According to the analysis of the material characterization results , the quantum mechanical ab initio method has been applied to simulate the physical chemical adsorption of CO , CH_4 and O_2 on the surface of the SnC > 2 thin film .

  5. 利用场发射扫描电镜的低电压高性能进行材料表征

    Materials characterization by using field emission scanning electron microscope

  6. 分形是材料表征中一种新兴的方法。

    Fractal was a novel method to characterize materials .

  7. 基于探针气体吸附等温线的矿物材料表征技术:Ⅲ.表面能量非均质性

    Characterization Technique ⅲ of Mineral Material Based on Probe Gas Adsorption Isotherm : Surface Energy Heterogeneity

  8. 应力三轴度和应变率对6063铝合金力学性能的影响及材料表征

    Influence of Stress Triaxiality and Strain Rate on the Mechanics Behavior of 6063 Aluminum Alloy and Material Characterization

  9. 电子显微技术以及电子能谱技术已成为材料表征特别是定量分析的重要工具。

    Electron microscopy and electron spectroscopy techniques have been important tools for material characterization particularly on quantitative analysis .

  10. 我们还使用常用的材料表征技术对这些纳米线进行了表征,并测量了几种纳米线结构的吸收光谱与光致发光光谱。

    We use various materials characterization methods to characterize these nanowires , and we also measure the absorption spectrums and photoluminescence properties for some nanowires .

  11. 马尔文仪器公司作为全球知名的颗粒材料表征系统的供应商,为各类企业提供完善的应用方案。

    Malvern Instruments is a world-class supplier of systems for the characterization of particulate materials , providing complete application solutions across a broad range of industries .

  12. 可循环钢铁流程分析技术及新一代钢铁材料表征技术是今后中国冶金分析测试的主要研究方向。

    Analysis studies related to circulative production flow of iron and steel and new characterization / description techniques for properties of materials are two major research aspects from now on in Chinese metallurgical analysis & testing field .

  13. 综述了水热合成技术,材料表征及常规的性能研究分析手段,对水热法在功能材料合成领域中的应用以及水热法合成功能材料的发展趋势给予概括性描述。

    Introducing hydrothermal techniques and various functional material characterization means , the author described the applications of hydrothermal method on the field of functional material synthesis , and reviewed the tendency of developing and fabricating multi-functional materials via hydrothermal process .

  14. 硅中δ掺杂材料的表征C掺杂GaAs外延层光学特性分析

    δ Doped Structures in Silicon and Their Characterization Carbon doped GaAs epitaxial layer grown by MOCVD

  15. 其结构是通过X射线衍射、透射电镜和扫描电镜等大型仪器对水体净化材料进行表征,进而确定样品的晶形和结构特点。

    Crystal shape and structure characteristics of the sample are determined by XRD , TEM and SEM .

  16. 乳液插层法制备PMMA/Nd(OH)3/MMT三相纳米复合材料及表征

    Synthesis of PMMA / Nd ( OH ) _3 / MMT nanocomposite by emulsion inserted method and its characterization

  17. 超临界CO2制备骨基质/PLA骨修复材料及其表征

    The Preparation and Characteristic Evaluation of Bone Matrix / PLA Bone Repair Material by Supercritical CO_2 Fluid Technique

  18. 反胶束模板制备聚苯胺/Ce(OH)3-Pr2O3/蒙脱土纳米复合材料及其表征

    Synthesis and characterization of polyaniline / Ce ( OH ) _3-Pr_2O_3 / montmorillonite nanocomposites through reverse micelle template

  19. 溶剂热合成法制备纳米TiO2/PVP复合材料及其表征

    Preparation and Characterization of TiO_2 / PVP Composite by Solvent Thermal Synthesis Process

  20. 小角散射(SAS)技术在含能材料结构表征中的应用

    Applications of Small-angel Scattering ( SAS ) Technique in the Structure Measuring of Energetic Materials

  21. 杉木-纳米SiO2复合材料结构表征及复合机理研究

    Study on Structure Characterization and Combining Mechanism of Chinese Fir / Nano-SiO_2 Composite

  22. 采用XRD、FT-IR、FT-PL和ESEM等测试手段对Nd∶YAG陶瓷材料进行表征。

    The Nd ∶ YAG ceramic materials were characterized by the XRD , FT-IR , FT-PL and ESEM .

  23. 采用差热分析(DTA)、X射线衍射(XRD)、扫描电镜(SEM)、傅里叶红外光谱FT-IR和UV-Vis-NIR分光光度计对材料进行表征。

    The characterizations were performed by differential thermal analysis , X-ray diffraction , Fourier transmission infrared spectroscopy , scanning electron microscopy and UV-Vis-NIR scanning spectrophotometer .

  24. 水热法制备PDP纳米荧光材料及其表征PDP电磁屏蔽膜的特性测试及其研究

    Preparation and characterization of PDP nano luminous materials by hydrothermal synthesis Performance Evaluation of Electromagnetic Interference Shielding Films of Plasma Display Panel

  25. 采用粉末X-射线衍射分析、N2吸/脱附、扫描电镜分析、高分辨透射电镜分析、傅立叶变换红外分析以及元素分析等表征手段,对所合成的材料进行表征。

    The synthesized materials were characterized by means of X-ray diffraction , N2 adsorption , SEM , HRTEM , FT-IR , and element analysis .

  26. 应用X-射线粉晶衍射(XRD)、红外吸收光谱(IR)的方法,对高岭土-淀粉接枝共聚丙烯酰胺超吸水性复合材料进行表征。

    By applying the methods of X ray powder diffraction and infrared spectrum , the characterization is carried out on the composite material of clay starch acrylamide graft copolymer with super hygroscopy .

  27. 铜原位改性HMS材料的表征及抗菌性能改性聚氨酯防水密封材料的流变特性

    Characterization and Antibacterial Ability of Copper-Modified Hexagonal Mesoporous Silica in situ Rheological Behavior of Modified Polyurethane Waterproof-sealing Material

  28. 针对制备后的复合材料进行表征,粉末XRD与傅立叶变换红外光谱说明合成后的复合材料主体骨架并没有被破坏,仍保持有序性,但是结晶度降低。

    The prepared composite materials were characterized . The frameworks of the prepared materials were remained intact and ordered but the crystalline degrees were decreased by powder X-ray diffraction and Fourier transform infrared spectroscopy .

  29. 采用电导率测试、元素分析、红外光谱、DSC分析、X射线衍射、透射电镜分析对材料进行表征。

    The materials were verified by the conductivity testing , the elemental analysis , Fourier transform infrared ( FTIR ) spectroscopy , differential scanning calorimetry ( DSC ) , X-ray diffraction spectrum , transmission electron microscopy ( TEM ) .

  30. 硅中δ掺杂材料的表征0.1μmNMOSFET沟道δ-掺杂与结构特性

    δ Doped Structures in Silicon and Their Characterization Influence of Channel Delta-Doped Profiles on 0 . 1 μ m NMOSFET Performance and Reliability