磁性铁

  • 网络Magnetic iron;mfe;magnetite
磁性铁磁性铁
  1. 用回归方程计算的磁性铁(MFe)分析老钻孔在利用中的可靠性

    Analyzing Reliability of Old Bore in Utilization by Computing Magnetite ( MFe ) on Regression Equation

  2. 对碎矿除尘水及尾矿中的磁性铁进行回收。

    The water in dust removal of crushing process and the magnetite in tailings have been recovered .

  3. TiO2/磁性铁氧化物/凹凸棒石光催化材料制备及性能研究

    A Study on Preparation and Properties of TiO_2 / Magnetic Iron Oxide / Palygorskite Photocatalytic Materials

  4. 目的研究进入脑室的超顺磁性铁纳米粒子(SPION)是否对小鼠活动的昼夜节律有影响。

    ObjectiveTo study the effect of superparamagnetic iron oxide nanoparticles ( SPION ) by intracerebroventricular adiministration on the locomotor circadian rhythm in mice .

  5. 磁性铁氧体纳米颗粒及其相关结构的调控制备

    Tunable Synthesis of Magnetic Iron Oxide Nanoparticles and the Related Structures

  6. 铜冶炼渣中磁性铁的分析方法探讨

    Analytic method of magnetic iron in copper smelting slag R

  7. 磁性铁氧化物纳米颗粒的性能与应用进展

    Properties and application progress of magnetic ferriferous oxide nanoparticles

  8. 铁矿床磁性铁品位的回归模型

    Regression model of magnetic iron grade for iron-ore deposit

  9. 铁矿石加工方法对其磁性铁含量测定结果的影响

    Influence of Processing Method for the Determination Result of Ferromagnetism Content of Iron Ores

  10. 应用中弱磁设备回收尾矿中磁性铁的研究

    Research on recovering magnetic iron from iron tailings by medium and normal intensity permanent magnetic separators

  11. 坡缕石/磁性铁氧化物/TiO2复合光催化剂性能实验研究

    A study of the photocatalytic properties of palygorskite / magnetic iron oxide / TiO_2 composite photocatalyst

  12. 磁性铁氧化物及其复合纳米粒子在化学,生物等分离过程中具有广泛的应用前景。

    Magnetic iron oxide and their hybrid nanoparticles have been used for magnetic separation in chemical and biological fields .

  13. 显示高磁化效应的磁性铁粒子当磁性线圈不导电时,转矩不会从传动轴传导于从动轴。

    Shows high magnetization effect of magnetic iron when magnetic particle coil not conductive , torque transmission shaft transmission from not in driven shaft .

  14. 结合矿石化学分析和镜下鉴定结果,证实闪石类矿物与磁性铁有着密切关系。

    Combined with the chemical analysis and the microscopic identification results , it is confirmed that amphibole minerals have a close relationship with magnetic iron .

  15. 某低品位磁铁矿石中磁性铁品位21.85%,S含量2.68%,其中磁黄铁矿中硫占原矿总硫的51.12%。

    Of the low grade magnetite ore , 21.85 % magnetite and 2.68 % S is separable ,( 51.12 % ) of it in the pyrrhotite .

  16. 随着强磁选设备的发展,美国研制的铁轮式永磁高梯度磁选机对微细粒级弱磁性铁矿物只有较好的回收效果。

    With the development of the high intensity magnetic separator , the permanent magnetic high gradient separator manufactured by the USA has better result to the micro particles low intensity magnetic minerals .

  17. 研究结果表明,采用预选-弱磁选工艺,可以获得TFe57.31%,回收率70.54%的铁精矿,磁性铁的回收率达到98.00%以上。

    The test results showed that the process of pre-concentration-low intensity magnetic separation could obtain an iron concentrate having a TFe grade of 57.31 % , iron recovery of 70.54 % and magnetic iron recovery of over 98 % .

  18. 本文使用135型饱和磁化分析仪通过多种分析手段,探讨了铜冶炼渣中的磁性铁分析技术,找出了更适合生产、操作简便和分析快速的分析方法。

    Through several analytic methods by using Model 135 saturation & magnetization analytic instrument , the article describes the analysis of magnetic iron in copper smelting slag and find out a more suitable and rapid analytic method with easy operation .

  19. 随x的增大,fcc结构的Fe1-xPdx合金的磁性从铁磁性或者反铁磁性变为亚铁磁性,再从亚铁磁性变为铁磁性和顺磁性;

    By decreasing the Pd content , the magnetism of fcc Fe 1 - x Pd x alloys changes from paramagnetism to ferromagnetism , ferrimagnetism , and finally anti ferromagnetism or ferromagnetism .

  20. Li-Cu-Zr系微波铁氧体的磁性和铁磁共振的研究

    Li Cu Zr System Ferrites with Magnetion and Ferromagnetic Resonance

  21. 一种具有磁性的铁的同素异形体,在摄氏度以下保持稳定。

    A magnetic allotrope of iron ; stable below 906 degrees centigrade .

  22. 磁性微铁粒子体内定位方法的研究

    Studies on the orientational localization of magnetic iron microsphere

  23. 锶渣制备磁性锶铁氧体及二次渣处理含铬废水的研究

    Research on Preparation of Strontium Ferrite and Wastewater Disposal Agent with Strontium Residues

  24. 磁性纳米铁微粒的制备方法研究

    Research on Preparation Methods of Magnetic Nanometer-Iron Micro-Particle

  25. 钇&镧石榴石型铁氧体系统的磁性和铁磁共振的研究

    Study of the magnetic properties and ferromagnetic resonance of the YTTRIUM-LANTHANUM iron garnet system

  26. 燃煤飞灰饱和磁化强度与其中的磁性当量铁相对含量存在明显的正相关性。

    The positive correlation between equivalent magnetic iron oxide content and saturation magnetization of coal-fired fly ash is significant .

  27. 超顺磁性纳米铁粒子标记骨髓基质干细胞及对其分化能力的影响

    Effect of superparamagnetic iron nanoparticle labeling on bone marrow stem cells'abilities to survive , proliferate and differentiate into hepatocytes

  28. 无磁性的铁的同素异形体,奥氏体的主要成分,在摄氏度之间保持稳定。

    A nonmagnetic allotrope of iron that is the basis of austenite ; stable between 906 and 1403 degrees centigrade .

  29. 赤泥磁化溶出-磁选工艺是通过在高温(-236℃)溶出过程中添加非钙质添加剂使赤泥中弱磁性的铁矿物转变成为强磁性的磁铁矿,再经磁选得到铁精矿。

    In magnetizing digestion process , weak magnetic iron-bearing minerals transform to magnetite which is strongly magnetic by adding non-calcareous additives in digestion process at236 ℃ . And then iron concentrate can be obtained by magnetic separation .

  30. 无磁性HCP相铁在高压下的弹性性质计算

    Calculation of Elasticity for HCP Nonmagnetic Iron under High Pressures