磁记录介质

  • 网络magnetic recording medium;magnetic recording media
磁记录介质磁记录介质
  1. 磁性形状记忆材料,(4)磁记录介质材料;

    Magnetic shape memory material ; ( 4 ) magnetic recording medium material ;

  2. 其磁特性完全适用于作垂直磁记录介质。

    The magnetic properties of the thin film are excellent for perpendicular magnetic recording medium .

  3. 化学镀Co-P/Ni-P磁记录介质的研究

    Study of electroless plating of Co-P / ni-p magnetic recording media

  4. Co基稀土及其耦合膜垂直磁记录介质研究

    Study on Co-rare Earth and Its Coupled Thin Films for Perpendicular Magnetic Recording

  5. 工艺条件对Fe3O4纳米颗粒磁性及均匀性的影响作为磁记录介质要求具有小的磁粒尺寸才可能有高的记录密度。

    The Influences of Process Conditions to the Magnetism & Homogeneity of Nano Scaled Fe_3O_4 Magnetic Particle Small magnetic particle is better for high recording density .

  6. 铝阳极氧化膜纳米级微孔内电沉积Fe-Co-Mn合金的磁性和垂直磁记录介质特性研究

    Magnetic Properties of Fe-Co-Mn Electrodeposition Alloy in Porous Alumite Film

  7. 在有关垂直磁记录介质以及垂直自旋阀和磁性隧道结的研究中,具有垂直磁各向异性的(PMA)的磁性薄膜具有很大的研究价值。

    Magnetic multilayers exhibiting perpendicular magnetic anisotropy ( PMA ) have a extremely high value of research in perpendicular magnetic recording media as well as in perpendicular spin valves and magnetic tunnel junctions .

  8. 电子束直写模版电沉积制备图案化磁记录介质

    Preparation of Patterned Media with Electron Beam Direct-Writing Lithography and Electrodeposition

  9. 超高密度垂直磁记录介质研究与进展

    Research and Development of Perpendicular Magnetic Recording Media for Ultra-High Density

  10. 高密度磁记录介质的稳定性问题及研究进展

    Stability Problem and Research Progress for the High-Density Magnetic Recording Media

  11. 作为磁记录介质要求具有小的磁粒尺寸才可能有高的记录密度。

    Small magnetic particle is better for high recording density .

  12. 垂直磁记录介质Co-CoO膜的磁畴结构和反磁化机理

    Domain Structures and Magnetization Reversal Mechanism in Co-CoO Medium for Perpendicular Recording

  13. 硬盘磁记录介质的发展与展望

    Development and Prospect of the Magnetic Recording Media For Hard Disk Drive

  14. 超高密度磁记录介质研究的热力学基础

    Thermodynamic considerations on development of ultra-high density magnetic recording media

  15. FePt/Ag高密度倾斜磁记录介质材料的制备

    The Preparation of FePt / Ag Tilted Media for High Areal Density Recording

  16. 磁记录介质的表面形貌和磁结构的观测

    Surface Topography and Magnetic Structure of Magnetic Recording Media

  17. 介绍了垂直磁记录介质近几年的一些新进展。

    Advancements in perpendicular magnetic recording media were reviewed .

  18. 纵向磁记录介质研究进展

    Researching Progress of the Longitudinal Magnetic Recording Media

  19. 国外颗粒磁记录介质最新发展状况

    Recent Progress of Particulate Magnetic Recording Materials

  20. 一种计算机辅助磁记录介质耐磨性快速测试法

    Personal computer aid fast testing system for the magnetic recording media 's resistance to abrasion

  21. 记录介质是一种CoNiPt多层膜,它可用作垂直模式的磁记录介质。

    The recording medium is a CoNi / Pt multilayered film , suitable for perpendicular recording .

  22. 新型的超高密度垂直磁记录介质&磁性纳米线有序阵列的研究

    A New Type of Ultra-high Density Vertical Magnetic Recording Media - Study of Magnetic Ordered Nanowire Array

  23. 磁性薄膜作为高密度的磁记录介质,近年来一直受到人们的广泛关注。

    In recent years the magnetic thin film which was made as the high-density magnetic recording media , has attracted much attention .

  24. 垂直磁记录介质的噪声降低问题。

    It covers the preparation method and the structure of the few kinds promis-ing perpendicular magnetic thin films and the problems of the media 's noise reduction .

  25. 由于磁性多层膜在高性能磁性传感器、高密度磁记录介质等领域有广阔的应用前景,近年来对磁性多层膜磁特性的研究引起理论和实验科学家的极大关注。

    Recently , the critical behaviors of magnetic films are of great interest because of the insight they provide into the fundamental nature of magnetism and technological applications .

  26. 随着磁盘面记录密度的不断提高,要求磁记录介质具有很高的矫顽力,而要在高矫顽力上记录信息,要求记录磁头材料必须具有高饱和磁感应强度。

    With the rapid development of the high density recording , it is required that the magnetic head materials have very high coercivity and saturation magnetic flux density .

  27. 提高磁记录介质的密度是人们多年所追求的目标,这要求磁性材料具有高矫顽力和相应的高饱和磁化强度。

    Scientists have been devoting to enhance the density of magnetic recording media for years . Magnetic materials are expected to be with high coercivity and high saturation magnetization .

  28. 发现在存放过程中,退火和未退火样品的磁性能未被破坏,反而在不同程度上略微有些改善,这对磁记录介质的应用是很关键的。

    It has been found that the magnetic properties of as-deposited and annealed films have not destroyed and slightly improved to a certain extent . It is very important for magnetic recording media application .

  29. 但生产设备多为一般水平,原材料的发展跟不上磁记录介质发展的需要,国内市场不大。

    But the production facilities are mostly of common level , the development of raw materials can . not match the development of the magnetic recording media and the domestic market has not been fully developed .

  30. 同时,也详细分析了磁性层和底层组分、籽晶层厚度以及真空退火对磁记录介质磁性能和微结构的影响。

    We also analyzed the effects of processing parameters , such as the composition of magnetic layer and under layer , the thickness of seed layer and the vacuum annealing , on the properties and microstructure of thin films .