物相分析

  • 网络phase analysis;xrd
物相分析物相分析
  1. 物相分析表明等离子喷涂莫来石涂层由玻璃相、γ-Al2O3、亚稳的四方相(2∶1)莫来石组成。

    XRD results indicate that plasma sprayed mullite coating consists of glass , α - Al 2O 3 and metastable ( 2 ∶ 1 ) mullite .

  2. 物相分析表明,随着温度的升高,污泥灰逐渐发生变化,石英相峰值明显降低,转化出现莫来石、斜方钠沸石等物相,并有非晶态无定形物相出现。

    XRD analysis showed that material phase changed with the increase of temperature , the peak of quartz phase obviously decreased , and the phases such as mullite , rhombic sodium zeolite and amorphous appeared .

  3. 薄膜材料X射线衍射物相分析与内应力测定

    Phase identification and internal stress determination in thin films by X-ray diffraction

  4. 采用X射线衍射仪,对沿电极轴向的3个不同电极端面进行了X射线衍射物相分析。

    Three transverse sections of the electrode are observed by X-Ray Diffraction .

  5. X射线衍射物相分析的一种简单方法

    A Simple Method of Material Phases Analysis on X-Ray Diffraction

  6. 铝灰中金属Al和Al2O3的物相分析

    Phase Analysis on Aluminum Metal and Aluminum Trioxide in Aluminium Ash

  7. X射线定量物相分析程序

    The program of x - ray quantitative phase analysis

  8. 利用X射线衍射技术对球磨产物进行物相分析。

    Use the X-ray diffraction phase technique to analyze the final milling products .

  9. 蓝色氧化钨(F)的X射线衍射物相分析

    Phase Analysis of Blue Tungsten Oxide ( F ) by X-ray Powder Diffraction

  10. X射线物相分析的微机模拟

    Computer Simulation of Phase Analysis by X-ray Diffraction

  11. 三相(Ti,Zr)N复合陶瓷的物相分析

    Characterization of three-phase ceramic composite ( ti , zr ) n

  12. 古铜镜的X射线物相分析

    X-ray Phase Analysis for Ancient Bronze Mirrors

  13. 报导了多媒体软件动态模拟X射线物相分析的全过程。

    This multimedia software can simulate the whole process of phase analysis by X-ray diffraction .

  14. XRD物相分析,产物为六方晶系;

    XRD shows that the product is ZnO with hexagonal structure .

  15. 用X-射线衍射仪(XRD)对样品进行物相分析;

    The matter phase is analyzed by X-ray diffraction ( XRD );

  16. XRD中扫描速度对物相分析的影响

    Influences of Scanning Speed on Phase Analyze in XRD

  17. XRD物相分析测定了样品的结构。

    The crystal structure was determined by XRD .

  18. 用X射线衍射仪进行了物相分析;用金相显微镜和电子显微镜观察了合金组织。

    Phase structure analysis and metallographic structure observation were made by X-ray diffractometer and optical and electron microscope respectively .

  19. 对由不同组分的熔体中生长的晶体进行了X射线物相分析、光谱分析、化学分析。

    X-ray phase analysis , absorption spectrum and chemical analysis of crystals KNbO_3 of different colours have been conducted .

  20. 通过宏观、微观金相检验和X射线物相分析等检测方法对其进行了分析。

    Examine through macroscopic , micro metallography person who analyze detection method analyze to their with X ray thing .

  21. 利用X射线衍射仪对分解前后试样进行了物相分析。

    The phase identification is carried out by X_ray diffraction ( XRD ) before and after the thermal treatments .

  22. X-射线粉末衍射物相分析的结果又进一步证实了化合物(A)和(B)是两种完全不同的物相。

    The results of X ray diffraction analyses further proved that compounds ( A ) and ( B ) are of two different phases .

  23. 选用催化极谱法测Mo可进一步简化操作手续,提高测定灵敏度。所拟方法用于一般钼矿石物相分析,尤其对含酸溶硫化物较多的矿石均能得到满意的结果。

    The determination of Mo by catalytic polarography is simplified with improved sensitivity and accuracy .

  24. 通过库仑滴定、三角波电位扫描和X射线衍射物相分析,研究了Li/PbS电池的阴极反应机理。

    The reaction mechanism of cell Li / PbS has been studied with Coulombic titration , cyclic voltammetry and X-ray diffraction methods .

  25. XRD物相分析证明产品为立方晶系的完全互溶取代固溶体。

    XRD phase analysis demonstrates that the compounds are mutually miscible in the solid solutions with cubic crystal structure .

  26. 利用XRD对薄膜进行物相分析,可知沉积态的薄膜为非晶态的。

    XRD was used to analyse the phase of films . It is found that the as-deposited film is amorphous .

  27. 用X射线衍射定量物相分析法.测定了不同产地EMD(电解二氧化锰)中不同晶型二氧化锰的含量。

    Quantitative analysis of phase composition of EMD ( electrolytic manganese dioxide ) by X-ray diffraction method is introduced .

  28. 用光学显微镜、透射电镜和X射线衍射仪进行显微组织观察与物相分析。

    The microstructure of laser-cladded layer was observed using metallurgical microscope and TEM . The phase compositions of laser-cladded layer were analysed using X-ray diffractometer .

  29. FTIR和XPS对含低价Cr混合物物相分析的应用研究

    Application of FTIR and XPS Technique to the Analysis of the Mixture Containing Chromium in a Low Valence State

  30. 通过显微镜、扫描电镜的观察和X射线射衍物相分析,确定了实验合金表面氧化层的主要物相。

    The phase species of oxide scales on the tested alloys were determined by a microscope , a scanning microscope and especially the X-ray diffraction analysis .