1) magnetic recording media
磁记录介质
1.
Thermodynamic considerations on development of ultra-high density magnetic recording media;
超高密度磁记录介质研究的热力学基础
2.
In this paper,the current situation of magnetic recording media is presented.
介绍了颗粒磁记录介质发展现状,着重总结、分析了钡铁氧体超细粉末制备技术最新进展,包括溶胶-凝胶法、共沉淀法、微乳液法等最新合成方法。
3.
many potertial application, including magnetic recording media, catalysts, ceramics, medicaments and magnetic liquid, etc.
与块状材料相比,超微颗粒具有一系列特殊的性质,从而在磁记录介质、催化、陶瓷、医学以及磁性液体等方面有着广泛的应用。
2) magnetic recording medium
磁记录介质
1.
Perpendicular magnetic recording, magnetic recording material,magnetic recording medium,GMR material, and magnetic recording head are introduced.
本年综述的内容包含:(1)垂直磁记录;(2)磁记录材料;(3)高密度磁记录介质;(4)巨磁电阻材料;(5)磁记录头。
2.
It consists of perpendicular magnetic recording system, giant magnetoresistive storage and magnetic sensor, synthetic multilayer magnetic recording medium, magnetic tunneling type magnetic head materials, magne-tooptic recording medium materials.
综述了2000~2001年间国内外磁记录材料及其应用的若干新进展,包括垂直磁记录系统、巨磁电阻磁存储器和磁传感器、合成多层膜磁记录介质、磁隧穿型磁头材料、磁光记录介质材料。
3.
The characteristic of several modes of magnetic recording,the species of magnetic recording medium and magnetic head material,the demand of magnetic capability,are summarized.
综述了磁记录的几种记录模式的特点、磁记录介质和磁头材料的种类、性能以及对它的要求;同时简述了磁记录的工作原理和目前国内外的研究现状和前景;最后介绍了磁性薄膜介质的厚度、晶体结构、形貌、成分和磁性能等主要参数的测量方法。
3) Magnetic recording media films
磁记录介质薄膜
4) perpendicular magnetic recording media
垂直磁记录介质
1.
Advancements in perpendicular magnetic recording media were reviewed.
介绍了垂直磁记录介质近几年的一些新进展。
5) magnetic surface recor-ding media
磁表面记录介质
6) recording media
记录介质
1.
Thermal decay is becoming more and more significant with decreasing bit size of the recording media to achieve high recording density.
而这就需要减小记录介质中磁性粒子的大小。
2.
Thermodynamic parameters, the structural transformation and optical properties before and after the phase transforms of amorphous films of Sb-Se-based and Ge -Sb-Te-based phase change optical disk recording media were studied by using DSC, X-ray diffraction and spectrometer.
利用DSC,X射线衍射及分光光度计,对Sb-Se系和Ge-Sb-Te系记录介质的热力学参数、非晶态薄膜相变前后结构的变化及光学性能进行了系统的研究,结果表明:Sb—Se系非晶态的光稳定性很不理想,随着彼长的改变,反射率变化太快。
3.
This paper systematically studies the structural transformation and optical properties before and after the phase transforms of the Sb-Se-based and Ge-Sb-Te-based phase-change optical disk recording media amorphous films, by using X-ray diffractometer and spectrometer.
利用X射线衍射仪 ,分光光度计对Sb Se系和Ge Sb Te系相变光盘记录介质材料非晶态薄膜相变前后结构的变化 ,光学性能进行了系统的研究 ,X射线衍射分析表明 :SbSe非晶态薄膜退火后有Sb的析晶峰 ,SbSe2 有Se的析晶峰 ,符合化学计量比的Sb2 Se3 全部是Sb2 Se3 的共晶峰 。
补充资料:磁记录介质
分子式:
CAS号:
性质:又称磁记录材料。在磁记录技术中能作为信息载体的物质,如磁带、磁盘、磁卡等统称为磁记录介质。磁记录介质由磁记录材料及其支持体组成,按其基本结构形式的不同,磁记录介质可分为两大类,一类为磁带介质,一类为盘介质。
CAS号:
性质:又称磁记录材料。在磁记录技术中能作为信息载体的物质,如磁带、磁盘、磁卡等统称为磁记录介质。磁记录介质由磁记录材料及其支持体组成,按其基本结构形式的不同,磁记录介质可分为两大类,一类为磁带介质,一类为盘介质。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条