磁铁矿

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  • magnetite
磁铁矿磁铁矿
  1. B2O3对磁铁矿烧结过程初期液相粘度的影响

    Effect of B_2O_3 on the Viscosity of Primary Liquid in Magnetite Sintering Process

  2. B2O3对磁铁矿烧结过程铁酸钙形成的影响

    The effect of b_2o_3 on the formation of calcium ferrite in the Magnetite Sintering Process

  3. 氧缺位的磁铁矿型化合物转化CO2成C的研究

    Studies on the conversion of carbon dioxide into carbon over the oxygen-deficient magnetite

  4. 理论研究表明:攀枝花钒钦磁铁矿现用中1050x3000mm湿式永磁筒式磁选机的磁场特性为H。

    According to the theory and research , magnetism characteristic of the wet permanent magnetic tube separator is .

  5. 天然磁铁矿处理含Hg(Ⅱ)废水实验研究

    The Disposal of Hg (ⅱ) - bearing Wastewater by Natural Magnetite

  6. 磁铁矿全体采矿工人的肺癌未显示超量发生(SRR=1.14,P>0.05)。

    The SRR was 1.14 ( P > 0.05 ) .

  7. 在较高氧化温度下,MgO对扩散阻力无明显影响,添加MgO并不提高氧化反应速度,但在任何氧化温度下,添加MgO不改变磁铁矿氧化反应的控制环节。

    But the addition of MgO has no effect on oxidation rate .

  8. 磁铁矿的制备及其对NOx的分解研究

    Preparation of Magnetite and its Function to Decompose NOx

  9. 蜜蜂体内磁铁矿(Fe3O4)来源问题的研究

    Study on the Source of Magnetite ( Fe_3O_4 ) in Honeybee

  10. 300℃、500bar条件下赤铁矿+磁铁矿缓冲组合在NaCl水溶液中的溶解度

    The solubility of hematite + magnetite buffer assemblage in NaCl aqueous solutions at 300 ℃ and 500 bars

  11. 介绍了采用一种新型捕收剂SR提高包头原生磁铁矿质量的研究。

    This paper presents the research for improving the quality of iron concentrate from Baotou original magnetite with new collector SR.

  12. BI井6号样品中发现的典型球状磁性矿物是在烃聚集的地球化学环境中形成的自生磁铁矿。

    The spherical magnetic mineral grains within sample 6 from B well-1 are authigenic magnetite which formed under geochemical conditions of hydrocarbon migration .

  13. 含钛高炉渣,是冶炼钒钛磁铁矿产生的高炉渣。TiO2约占23-25%,主要分布于钙钛矿、富钛透辉石和攀钛透辉石中。

    The blast furnace slag containing about 25 % TiC > 2 are produced by smelting V-Ti bearing magnetite .

  14. CCSD主孔高Ti榴辉岩非耦合的高Ti、低Nb(Zr)特征:对玄武质岩浆房中磁铁矿分离结晶作用的指示

    Decoupled high-Ti from low-Nb ( Zr ) of eclogites from the CCSD : Implications for magnetite fractional crystallization in basalt chamber

  15. 攀枝花钒钛磁铁矿经选矿后约有55%左右Ti进入铁精矿,在随后的高炉炼铁中,钛基本上进入高炉渣。

    About 55 % titanium contained inside Panzhihua titanium-vanadium magnetite ore enters the enriched iron concentrate , and then goes into blast-furnace slag during subsequent blast-furnace puddling .

  16. MVS高效振网筛在磁铁矿选矿厂的应用

    Practical application of high efficient mesh-vibrating sieve in magnetite dressing plant

  17. 用某铁精矿粉制取超纯铁精矿的选矿试验研究钛磁铁矿异相Fenton法对亚甲基蓝模拟废水的脱色研究

    Research on the Production of Super Pure Iron Concentrate with a Powder Iron Concentrate DECOLORIZATION OF METHYLENE BLUE BY HETEROGENEOUS FENTON REACTION USING TITANOMAGNETITE

  18. Hg(Ⅱ)、Cd(Ⅱ)和Cr(Ⅵ)离子在天然磁铁矿与褐铁矿上的吸附行为都可以较好的用Langmuir和Freundlich吸附等温式描述。

    The adsorption behavior of Hg ( II ), Cd ( II ) and Cr ( VI ) ions on natural magnetite and limonite can be described by Langmuir and Freundlich equations .

  19. 耐低温阳离子捕收剂GE-601反浮选磁铁矿的研究

    Study on Reverse Flotation of Magnetite With GE-601 Low Temperature-resistant Cationic Collector

  20. 本文从表面润湿热、表面电性及红外光谱测试入手,研究了复合粘结剂CB与磁铁矿颗粒表面作用机理。

    He investigation of the mechanism of the interaction of composite binder with iron ore concentrate has been performed by the determination of surface wetting heat , surface potential and infrared spectrum .

  21. 高Mn/Ti比可用于区分ErnestHenry与EasternSuccessionofMountIsaInlier其它IOCG矿床中的磁铁矿和其它的无矿化的富磁铁矿的角砾岩体。

    High Mn / Ti ratios can be used to distinguish Ernest Henry and other regional Eastern Succession of Mount Isa Inlier IOCGs from unmineralized magnetite-rich breccia bodies in the region .

  22. 以摩尔盐,柠檬酸三钠,PVP为原料,在温度为180℃时通过一个简单的低温水热方法制备出高产量的单晶磁铁矿纳米线。

    High yield of single crystalline magnetite nanowires have been synthesized by a simple low-temperature hydrothermal method using ferrous ammonium sulfate hexahydrate , trisodium citrate and PVP as starting materials at 180 ℃ .

  23. k-T曲线中磁化率在580℃左右急剧降低,表明起主导作用的磁性矿物为磁铁矿。

    The k-T curve showed that the susceptibility drastically reduced at about58O ℃, indicating that the dominant part of the magnetic mineral was magnetite .

  24. 与SEM、EDS、FTIR分析结果一致,核桃壳、磁铁矿和陶粒砂滤料表面亲油亲水性的差别主要归因于其表面物理化学结构的不同。

    The experimental results being consistent with SEM , EDS and FTIR results , the lipophilic and hydrophilic differences of walnut shell , magnetite and ceramic sand could be ascribed to the differences of their surface physical chemistry structures .

  25. 于300℃、500bar条件下用Dickson金袋式热液装置测定了赤铁矿+磁铁矿组合在0.1和1.0mol/kgNaCl水溶液中的溶解度。

    The solubility of the hematite + magnetite assemblage in 0.1 and 1.0 mol / kg NaCl solutions was determined by using Dickson gold cell hydrothermal apparatus at 300 ℃ and 500 bars .

  26. 本文简要评述了Ishihara(1977)关于花岗岩类磁铁矿系列和钛铁矿系列的分类方案。

    This paper gives a brief comment on the classification which divided the granitoids into magnetite-series and ilmenite series by Tshihara ( 1977 ) .

  27. 攀枝花钒钛磁铁矿中伴生的TiO2在回收钒钛磁铁矿的磁选过程中,一半左右存在于尾矿中,现已部分回收利用,一半左右存在于铁精矿中。

    In the course of the magnetic of retrieving vanadium and titanium magnetite in Panzhihua , about half of associated titanium dioxide , which have been partly retrieved and utilized , exist at the tailings , while the other half exist at the iron concentrates .

  28. 随着花岗质岩浆的演化,逐渐形成Fe→FeO→Fe3O4的反应系列,从而导致以自然铁为核心,方铁矿和磁铁矿为壳层的球状颗粒的产生。

    With the evolution of granitoid magma , the reaction series of Fe → FeO → Fe_3O_4 is gradually formed , and the sphericity which has the core of Fe and the rims of FeO and Fe_3O_4 is produced .

  29. 研究了磁铁矿烧结过程初期液相的形成及加入B2O3对铁酸钙生成的影响。

    The formation of primary liquid and effect of B 2O 3 addition on the formation of calcium ferrite in magnetite sintering process have been investigated .

  30. 应用GE-601反浮选磁铁矿中的SiO2,得到了良好的指标:在22℃时,精矿铁品位为69.31%,回收率97.79%;

    The reverse flotation of SiO 2 from magnetite with GE-601 collector achieved good indexes : at 22 ℃, the grade of iron concentrate was 69.31 % and the iron recovery 97.79 % ;