钝化膜

  • 网络passivation film;passive film;passivation coating;SEI;FeOOH
钝化膜钝化膜
  1. 用AES和XPS方法对钝化膜进行了分析,并对钝化膜的性质和耐磨性进行了讨论。

    The nature and the corrosion resistance of the passivation film are also discussed .

  2. 低温生长SiO2钝化膜在太阳电池上的应用

    Sio_2 passivation film grown at low temperature and its application to the solar cell

  3. 结果表明,载波钝化膜是一高度无序的非晶态半导体膜且具有p型半导体特性。

    Results show that the A. V.passive film is a highly disordered amorphous state .

  4. 非晶态Fe-W镀层铬酸盐钝化膜耐蚀机理探讨

    On corrosion resistance of chromated passive film on amorphous Fe-W deposits

  5. 镀锡钢板铬酸盐钝化膜中铬的X射线光电子能谱分析

    X-ray photoelectron spectroscopy analysis of chromium element in chromate passivation film formed on tinplate

  6. 苯胺和联苯胺在非晶态Fe-W合金钝化膜上电聚合的研究

    Research of Electro-polymerization of Aniline and Benzidine on Amorphous Fe-W passive Film

  7. 一种FeMnCr奥氏体合金钝化膜的AES/XPS研究

    An AES and XPS Study on the Passive Film of an Fe-Mn-Cr Alloy

  8. a&Si(1-X)CX∶H钝化膜热稳定性的研究

    A Study of the Thermal Stability of a & Si_ ( 1-x ) C_x : H Passivant Films

  9. 用XPS研究铅铜合金钝化膜

    An XPS Study of passive films of aluminum - copper alloy

  10. Gr/Al复合材料表面镀覆双层金属黑色钝化膜的工艺研究

    Study of double layer passivation black coating on Gr / 6061Al composite surface

  11. 用XPS研究Ti-15Mo合金在盐酸中钝化膜的组成

    The Chemical Composition of the Passive Film on Ti-Mo Studied by XPS

  12. Al-Mg(Cu)合金钝化膜的XPS深度剖析

    Analysis of passive films of Al Alloys by XPS depth profile

  13. 多晶Fe(60)Ni(40)合金阳极钝化膜的XPS研究

    XPS Investigation of Anodic Passive Films on Fe_ ( 60 ) Ni_ ( 40 ) Polycrystalline Alloy

  14. 用俄歇能谱AES分析了合金钝化膜的组成。

    Passive film of alloys was investigated with AES analysis .

  15. 铬铝复合钝化膜的XPS研究

    An XPS Study of Cr-Al composite passive films

  16. 用XPS研究钢筋钝化膜和C1~-对钝化膜的影响

    A XPS Study of rebar passive film and effect of chloride ions on it

  17. 光CVDSiO2钝化膜在红外探测器中的应用

    Application of Photo-CVD SiO_2 Passivation Films for Infrared Detectors

  18. 不同表面状态镀锡钢板铬酸盐钝化膜中铬元素的XPS分析

    XPS Analysis of Chromium Element in Chromate Passivation Film Formed on Tinplate in Different Surface State

  19. ICP-AES测定彩涂前处理表面调整转化层中Ti、Ni含量及钝化膜中Cr含量

    Determination of the Contents of Ti , Ni in Conversion Layer Before Colour-Coating and Cr in Passive Film by ICP-AES

  20. CdTe/ZnS复合钝化膜的界面电学特性研究

    A study of interface electrical characteristics for cdte / zns passivation films

  21. 用于GaAs功率MESFET的新型钝化膜

    A Novel Passivation Film Used for GaAs Power MESFET

  22. 用慢电势扫描和恒电流法研究铜在浓碱中的阳极过程,并用角分辨X射线光电子能谱测试了铜表面二次钝化膜。

    The anodic process of copper in concentrated NaOH solutions was studied by potential slow scan and galvanostatic methods , and angle dependent X-ray photoelectron spectroscopy analysis .

  23. 电化学测试表明水质中pH值、腐蚀性离子、水温等对无钝化膜铜材料的腐蚀速率均产生影响。

    Electrochemical tests showed that the pH value in water , corrosive ions , water temperature had an impact on the corrosion rate of copper without passive film .

  24. 低温PECVD法制备半导体的复合钝化膜

    Preparation Compound Passivation Film of Semiconductor by Low Temperature PECVD Means

  25. 对敏化的不锈钢电极,在不同的电极电势范围内,钝化膜显示出n-型或p-型半导体的特性。

    The results of the photocurrent measurements indicated that the passive films on sensitized stainless steel showed characteristics of n type or p type semiconductors , respectively , under various potential region .

  26. 采用电化学方法、扫描电镜和X射线光电子能谱研究了锌酸盐镀锌层的三价铬钝化膜的电化学性能、表面结构与成膜机理。

    The electrochemistry behavior , surface microstructure and forming process of trivalent chromium passivation film were studied by electrochemical methods , scanning electron microscopy and X-ray photoelectron spectroscopy .

  27. 该模型认为316L不锈钢钝化膜由三层构成:最外层主要是由Fe的氧化物以及少量Cr的氧化物组成;第二层主要是Cr的氧化物,含有少量Fe,Mo和Ni的氧化物;

    The results showed that passivation film was formed by three layers : oxides of Fe and small amount Cr in the first layer ;

  28. 不同介质中HDR双相钢钝化膜的XPS研究

    Study of the Passive Films on Duplex Steel HDR in Different Corrosion Media using XPS Technique

  29. 电化学过程中产生的亚铁离子会导致pH的变化,pH的变化在电极表面形成预钝化膜,它可能是氢氧化亚铁膜。

    Fe2 + , produced by the electrodissolution of iron will lead the change of pH , which cause the formation of passive film at the electrode / solution interface .

  30. X射线光电子光谱(XPS)分析结果表明,钝化膜主要由Fe的氧化物Fe2O3和FeO组成。

    The X-ray photoelectron spectroscopy ( XPS ) analysis indicates that the passive film consists primarily of Fe_2O_3 and FeO .