钨钼

  • 网络tungsten and molybdenum
钨钼钨钼
  1. 仲钨酸B的形成及其在钨钼分离中的应用

    The Formation of Paratungstate B and Its Use in the Separation of Tungsten and Molybdenum

  2. 研究了新生态Fe(OH)3对钨钼的吸附,找到了钨钼分离的适宜条件,并应用于氨浸法生产钼酸铵的工业生产中。

    The optimal technological conditions of separating tungsten and molybdenum are found out by studying the absorption of nascent state Fe ( OH ) 3 to tungsten and molybdenum . The conditions are applied to the industrial production of ammonium molybdate in the process of ammonium leaching .

  3. Mo、Co主要分布在籽粒中;离子渗钨钼锯条性能的研究

    Study on the Characteristics of Saw Blades by Plasma Diffusing W 、 Mo

  4. Mo、Co主要分布在籽粒中;钨钼分离是当前钨冶金中的一个技术难题。

    W / Mo separation is the main technical problem in W metallurgy .

  5. Mo、Co主要分布在籽粒中;钨钼复合靶的残余应力

    Residual Stress in W - Mo Composite Target

  6. 本文研究了平衡碳差值⊿C对钨钼系通用高速钢的组织和性能的影响。

    In this paper , the effects of △ C-the difference of balance carbon-on the structures and properties of W-Mo general HSS were studied .

  7. Fe(OH)3吸附法从高钨钼酸钠溶液中分离钨钼的研究

    Study of Separation of Tungsten and Molybdenum from High W-containing Molybdate Acid Sodium Solution by Fe ( OH ) _3 Adsorption

  8. XRF直接测定选钨流程中钨钼

    The direct determination of W and Mo in a tungsten ore beneficiation flowsheet by X-ray fluorescent spectrometry

  9. 通过对影响分离的因素如树脂种类、料液pH值等的研究,确定了离子交换法从解钼液中分离回收钨钼的最佳条件。

    In this article the optimal separation condition of W and Mo from Mo stripping solution by ion exchange is determined through the tests of separation factors such as resin types , PH of solution , etc.

  10. 最后利用Johnson-Cook模型拟合了钨钼合金动态压缩本构关系。

    Finally , dynamic compression constitutive relation is simulated using Johnson-Cook model .

  11. 本文利用分离式Hopkinson杆对钨钼合金进行了动态压缩和扭转试验。

    The dynamic compression and torsional experiments are done for Tungsten-molybdenum alloys through split Hopkinson pressure bar and torsion Hopkinson bar in this paper .

  12. 本文指出:生长YAG时,钨棒炉中试料的污染是由于钨钼氧化物的热稳定性差,因而在高温的坩蜗中分解析出钨钼所致。

    During the growth of YAG , the material specimen in the tungsten-rod furnace becomes contaminated because of poor heat stability of oxides of both tungsten and molybdenum . The oxides are decomposed with tungsten and molybdenum separated in the high temperature crucible .

  13. 铜钨钼硅多元取代多金属含氧簇合物的合成、性质及催化作用

    Synthesis , Properties and Catalysis of Multicomponent Polyoxometalate Clusters Containing Copper

  14. 文中介绍了球墨铁经渗钨钼、镍铬之后的合金渗层的组织、成分和性能特点,研究和分析了处理温度、时间、铸铁成分和辉光放电条件等因素对合金渗层形成过程的影响。

    Microstructure composition and properties of the alloyed layers are introduced .

  15. 钨钼铜贝氏体灰口铸铁的组织与耐冲蚀磨损性能之研究

    Microstructure and Erosion Wear Resistance of W-Mo-Cu Bainitic Grey Cast lron

  16. 钨钼铋共生矿石选矿工艺的研究

    Technological study of complex wo_3 , mo , bi ore beneficiation

  17. 离子浮选法从钨酸盐溶液中分离钨钼

    Separating molybdenum from the tungstate solution by ion flotation method

  18. 钨钼室温脆性的研究

    A study on the brittleness of W and Mo at room temperature

  19. 从含钨废料中分离回收钨钼钴

    Separation and recovery of tungsten , molybdenum and cobalt from tungsten scraps

  20. 云南某复杂多金属钨钼矿选矿新工艺研究

    New concentration technology for a complex tungsten-molybdenum ore in Yunnan

  21. 地质化探试样中微量钨钼的光谱定量测定

    Spectrographic Determination of Micro Amounts of Tungsten and Molybdenum in Geochemical Samples

  22. 硅铝热法冶炼钨钼复合铁合金试验

    Test on smelting W-Mo compound ferroalloy with Si-Al heating method

  23. 三辊Y型连轧机在钨钼轧制开坯中的应用

    The application of three-roll-y continuous rolling mill to the cogging of tungsten-molybdenum

  24. 钨钼混合氧化物熔融还原直接合金化

    Direct alloying for W - Mo mixed oxide by melting and reduction

  25. 乳状液膜法分离钨钼的研究酸性体系

    Separation of tungsten and molybdenum by emulsion liquid membrane acidic separation system

  26. 钨钼无机离子交换剂的合成与应用

    Synthesis and application of the tungsten and molybdenum ion exchangers

  27. 云英-矽卡岩型钨钼铋多金属矿石选矿技术的发展

    Technological Developments in Separation of Greisen-Skarns Type W-Mo-Bi Multi-metal Ores

  28. 本文叙述了我国钨钼资源、产量及对外贸易现状。

    The situation of tungsten-molybdenum resources , output and trade were related .

  29. 1984年,赣州钨钼材料厂投产,引进日本技术,生产出了钨粉、棒、丝等产品。

    In 1984 , Ganzhou Tungsten and Molybdenum Materials Factory was into production .

  30. 用于生产钨钼的大型常压还原炉氢气回收设备

    Large-capacity H_2 Pressure Recovery Equipment from H_2-Reduction Furnance for W / Mo Production