钼铁

  • 网络ferromolybdenum;Mo-Fe;FeMo
钼铁钼铁
  1. 现已拥有加工钒系列产品生产基地,并同时在经营钨铁、钼铁、硅铁等合金的加工和贸易。

    Now we have built up our manufacturing bases for Vanadium series products , meanwhile we 're also processing and trading of FeW , FeMo , FeSi , etc.

  2. 钼铁冶炼过程中Si元素的控制

    The control of Si element in ferromolybdenum smelting

  3. Mo、Co主要分布在籽粒中;蓝藻固氮酶钼铁蛋白的研究

    Studies on nitrogenase Mo - fe protein of blue - green algae

  4. 溶胶-凝胶法制备钼铁催化剂及其XRD、FTIR光谱分析

    Preparation of Mo-Fe Catalysts by Sol-Gel Method and Its XRD , FTIR Spectral Analysis

  5. ICP-AES测定钼铁中微量锑和锡

    ICP-AES determination of micro amounts of antimony and tin in ferromolybdenum

  6. 分析了影响铝铁中Si元素含量的因素,并就钼铁冶炼过程中Si元素的控制提出了几点措施。

    Abstract The paper analyses the factor of influence on Si content in ferro-molybdenum , the improvement measure is presented to control the Si element in ferromolybdenum smelting .

  7. 分别用来源于Av和Cp的固氮酶,研究了ATP/ADP和铁蛋白/钼铁蛋白(以下简写为Fe/MoFe)比对每传递2个电子时被水解的ATP分子数(即P/2e~-)的影响。

    The effect of ATP / ADP and Fe / MoFe ratios on the number of ATP molecules hydrolyzed per electron pair transferred ( P / 2e-ratio ) was determined for nitrogenase from Azotobacter vinelandii and Clostridium pasteurianum .

  8. 通过在氧化钼中配加不同数量Fe2O3作疏松剂的试验,研究了对脱硫速度的影响。并进行了将氧化钼压块用直接还原法制取高碳钼铁的研究开发。

    The effect to speed of desulfurization is studied by test of adding different amount Fe 2O 3 as sponging agents , and the preparation of high carbon ferromolybdenum from compacts of molybdenum oxide is also studied .

  9. 将钼铁试样经处理转化为8-羟基喹啉钼[MoO2(C9H6NO)2]沉淀后,以不同的微波功率和照射时间对沉淀物进行干燥试验,确定出了最佳微波功率为680W,最佳照射时间为12min。

    The sample of ferromolybdenum was firstly changed into sediment [ MoO2 ( C9H6NO ) 2 ] , then dried to constant weight with different microwave radiation power . The optimum radiation power was determined to be 680 W with radiation time of 12 min.

  10. 评介了2005年一季度钼品,如钼精矿、钼铁的价格行情及走势和进出口情况。

    Molybdenum market in the first quarter of 2005 was reviewed .

  11. 等离子炉炭热法冶炼钼铁

    Method of carbon heat smelting ferro - Molybdenum in plasma furnace

  12. 冶炼钼铁用氧化钼的焙烧方法探讨

    Discussion on the method of roasting moly oxide for smelting ferromolybdenum

  13. 直读光度法测定钼铁中的硅

    Determination for silicon in ferromolybdenum with direct reading photometery method

  14. 缺失P-铁硫原子簇的钼铁蛋白的重组研究

    Studies on the reconstitution of p-cluster - deficient molybdenum - iron protein

  15. 用钼铁矿尾矿作原料生产水泥

    Using Tailings from Mo-bearing Iron Ores as Raw Material for Cement Production

  16. 用氧化钼块取代钼铁冶炼工具钢

    Substitution of bulk moo for ferro-moly in making tool steel

  17. 双核铁硫和钼铁硫配合物的电子结构研究

    A Study of Electronic Structures on the Bimetallic Fe-S and Mo-Fe-S Complexes

  18. 活性氧自由基对固氮酶(钼铁蛋白)的损伤

    The Injury of Nitrogenase MoFe Protein by Activated Oxygen Radicals

  19. 用直接还原法制取高碳钼铁

    Preparation of high carbon ferromolybdenum by direct reduction method

  20. 用高硅低钼的钼精矿生产钼铁

    [ wt4,5hz ] production of molybdenum concentrate using high Si and low Mo

  21. 中国钼铁实物市场对钼业证券价格影响的实证检验

    Empirical test on impact of Chinese ferro-molybdenum market on Chinese molybdenum stock market

  22. 欧盟对华钼铁反倾销案研究

    Research on EU Ferro Molybdenum Anti-dumping Cases against China

  23. 柱孢鱼腥藻的铁蛋白与棕色固氮菌的钼铁蛋白的交叉互补作用

    Cross-reactivity of Fe-protein of Anabaena cylindrica and Mo Fe-protein of Azotobacter vineland ⅱ

  24. 钼铁催化剂上甲缩醛空气氧化制浓甲醛的宏观动力学

    Study on macrokinetics of oxidation of methylal to formaldehyde over Mo Fe catalyst

  25. 基于钼业市场联合度量的中国钼铁市场作用与价格波动研究

    Research for Market Mechanism and Fluctuation of China Ferro-Molybdenum

  26. 上房沟;高滑石型钼铁矿石;工艺矿物学;

    Shangfanggou ; High-talcose kamiokate ore ; Process mineralogy ;

  27. 钼铁硫原子簇化合物的结构和磁性

    The Relationship Between the Structures and the Magnetic Properties for Mo-Fe-S Cluster Compounds

  28. 综述了我国钼铁生产、科研、消费和出口情况。

    Production , research , consumption and export for ferromolybdenum in China were recounted .

  29. 不同底物与固氮酶及其钼铁蛋白相互作用的荧光光谱分析

    Analysts of Interactions Between Different Substrates and Nitrogenase and Its Mo-Fe Protein by Fluoroscopy

  30. 根瘤的呼吸与固氮作用有催化活性的固氮酶二聚态钼铁蛋白

    Catalytically active dimeric Mo-Fe protein of Azotobacter Nitrogenase