锶铁氧体

  • 网络strontium ferrite;sr ferrite
锶铁氧体锶铁氧体
  1. 研究了Sr2+与Fe3+离子比、醇水比、预热处理温度和升温速率对粉体的形成及其性能的影响。XRD分析表明磁粉形成了单相的锶铁氧体粉体;

    The effects of Sr2 + and Fe3 + cation ratio , ethanol water ratio and preheat treatment temperature and heating rate on the formation of strontium ferrite powder were investigated .

  2. 利用微波烧结工艺制备M型锶铁氧体永磁材料,对微波烧结温度条件进行探索。

    The study on preparation of M-type strontium ferrite magnet materials by microwave sintering process is introduced , to explore the microwave sintering temperature .

  3. 单轴-平面W型复合锶铁氧体的制备及其吸波特性研究

    A study on preparation and microwave absorbing properties of the uniaxial and planar W-type composite Sr-ferrites

  4. Fe3O4/锶铁氧体复合吸波材料的制备与性能

    Preparation and Properties of Fe_3O_4-Strontium Ferrite Composite Microwave Absorbing Materials

  5. M型锶铁氧体的离子取代和磁性研究

    Studies on Ion Substitutions and Magnetic Properties of M-Type Strontium Ferrites

  6. 硫酸烧渣制备永磁锶铁氧体预烧料的工艺研究

    Study on Producing Pre-roasted Material of Strontium Ferrite from Pyritic Slag

  7. 锶铁氧体铝离子代换的穆斯堡尔谱学研究

    The study of Mossbauer spectroscopy on Al ions substituted Sr ferrites

  8. M型纳米锶铁氧体/导电高分子复合材料的合成与表征

    Preparation and Characterization of M-type Nano-Strontium Ferrite / Conductive Polymer Composite

  9. 用磁铁矿精矿制取锶铁氧体工艺研究

    Study on the Technology of Producing Strontium Ferrite from Magnetite Concentrate

  10. 用超纯铁精矿生产锶铁氧体预烧料及其焙烧动力学

    Preparation of strontium ferrite powder by iron concentrate and its sintering dynamics

  11. 超级铁精矿提纯与锶铁氧体预烧料试验研究

    Purification of Magnetite Concentrate and Study on Pre-sintered Sr-Ferrite Powder

  12. 六角晶系钡铁氧体与锶铁氧体吸波性能的比较

    Comparison of Microwave Absorbing Property between Hexagonal Barium Ferrite and Strontium Ferrite

  13. 低品位铁矿石生产锶铁氧体材料新工艺

    A novel technique for the preparation of Strontium Ferrites from low-grade iron ores

  14. 干压生产高性能锶铁氧体的新工艺

    A Novel Route for Production of High Performance Sr Ferrites by Dry Pressing

  15. 锶铁氧体胶态振动注模成形技术研究

    Studies on Strontium Ferrite Material by Colloid Vibrant Casting

  16. M型锶铁氧体中空纤维的制备和表征

    Preparation and Characterization of M-type Strontium Ferrite Hollow Fibers

  17. 镀态复合粉末与单纯锶铁氧体吸波粉末相比,其吸波性能的提高并不十分显著。

    The improvement in microwave absorption properties of as-plated composite powers is not obvious .

  18. 锶铁氧体微管的模板法制备及其磁性研究

    Preparation of Strontium Ferrite Microtubules with a Template Method and Their Magnetic Property Analysis

  19. 高性能锶铁氧体磁性材料的研制

    Development of High Performance Strontium Ferrite Magnetic Material

  20. 半取向烧结锶铁氧体的研究

    Research On Half Orientation Sintered Strontium Ferrites

  21. 葡萄糖酸钙对锶铁氧体球磨效率和磁性能的影响

    The Effects of Calcium Gluconate on the Milling Efficiency and Magnetic Properties of Strontium Ferrite

  22. 晶格畸变对锶铁氧体粉末永磁性能的影响

    Influence of Lattice Strain on the Coercivity of High Energy Ball-milled Pre-sintered Strontium Ferrite Powders

  23. 锶铁氧体基复合材料吸波特性的研究

    Study on Sr ferrite-based microwave absorbing materials

  24. 超纯磁铁精矿原料制备高σs的锶铁氧体预烧料的研究

    Study on production of strontium ferrite powder with high σ _s by super - pure magnetite concentrate

  25. 添加Zn~(2+)对六角晶锶铁氧体结构与磁性能的影响

    Influence of Zn ~ ( 2 + ) on the Structure and Magnetic Properties of Hexagonal Strontium Ferrite

  26. 本文采用了溶胶-凝胶技术和自蔓延燃烧法相结合的方法制备镧、铈、钕三种离子替代的锶铁氧体。

    La / Ce / Nd ion substituted strontium ferrites were prepared by sol-gel technique and self-propagating combustion method .

  27. 同时,选择合适的烧结温度有利于提高锶铁氧体的磁性能和视密度。

    To select the appropriate sintering temperature was propitious for the magnetic property and the apparent density of strontium ferrites .

  28. 因此,本研究提出用超级磁铁精矿代替铁红和铁鳞来制备高性能永磁锶铁氧体预烧料。

    In this work , super-pure magnetite concentrates are used to substitute for ferric oxide to produce a high-grade Strontium ferrite powder .

  29. 研究结果表明钴磷合金和钴镍磷合金是以极细小的颗粒为单位沉积在锶铁氧体表面。

    The results showed that the deposited cobalt-based metal on the surface of the strontium ferrite is in the form of very tiny particles .

  30. 锶铁氧体是重要的永磁材料,但锶铁氧体粉体很难制备高固相含量、低粘度的浆料。

    Strontium ferrite is an important permanent magnetic material , but making the strontium ferrite slurry with high solid content and low viscosity is very difficult .