1) as cast ribbon
淬态薄带
1.
5B 9 as cast ribbon prepared with quenching speed V=30m/s is about -22.
通过调高Cu在合金薄带的含量 ,并采用合适的甩带速度V ,在FeCuNbSiB淬态薄带材料中观察到了较大的巨磁阻抗效应。
2) as-quenched FeNiCrSiB ribbons
FeNiCrSiB淬态薄带
1.
The giant magneto-impedance(GMI) effect has been investigated for as-quenched FeNiCrSiB ribbons at various geometrical sizes.
研究了FeNiCrSiB淬态薄带的几何尺寸对其巨磁阻抗(GMI)效应的影响。
3) melt-spun ribbon
快淬薄带
1.
Microstructure characteristics of the Sm(Co_(0.68)Fe_(0.20)Cu_(0.08)Zr_(0.04))_z(z=10,12)melt-spun ribbons;
Sm(Co_(0.68)Fe_(0.20)Cu_(0.08)Zr_(0.04))_z(z=10、12)合金快淬薄带的微观组织特征
2.
Four kinds of melt-spun ribbons with the compositions of NdxFe94-xB6 (atom percentagex=7,8,9,10) were prepared using the method of single roller rapidly quenching.
用单辊快淬法制备了成分为Nd_xFe_(4-x)B_6(x=7,8,9,10)的四种快淬薄带,用X射线衍射(XRD)和Mossbauer谱对四种使淬苏带的非晶化程度进行了研究结果表明,Nd含量的增加可以提高材料的非晶形成能力快淬薄带的晶化行为和晶化产物分别用示差热分析(DTA),XRD和热磁测量进行了研究x≥8时,快淬薄带直接由非晶态晶化得到Nd2Fe14B和α-Fe两相;当x=7时,快淬薄带的晶化是一个两步过程,首先生成中间相Nd2Fe23B3,然后经过中间相的分解,得到Nd2Fe14B和α-Fe。
3.
5Fe80NbB6 melt-spun ribbons,after isothermal crystallization processes at 943,973 and 1003 K,was studied.
5Fe80Nb1B6非晶快淬薄带在943,973和1003 K等温晶化与薄带组织和矫顽力的关系。
4) melt-spun ribbons
快淬薄带
1.
SmCo5 and FeCo melt-spun ribbons were prepareed at Mo weel surface speed of V=35m/s,then the mixtures of these two kind of ribbons in a ratio of 70(SmCo5)/30(FeCo)wt% were mechanically milled.
在钼辊表面线速度V=35m/s条件下制备SmCo5和FeCo快淬薄带,对70(SmCo5)/30(FeCo)%(质量分数)的薄带混合物进行15~240min的短时间机械研磨实验,研究了该过程中研磨磁粉的微观组织演化和磁性能变化。
5) Fe83Nb7B9Cu1 ribbons
Fe83Nb7B9Cu1快淬薄带
1.
1~16nm in the Fe83Nb7B9Cu1 ribbons annealed in the temperatures range of 520~820℃ for 20 minutes were prepared.
将制备的Fe83Nb7B9Cu1快淬薄带在520~820℃的温度范围内分别退火20mins,析出晶粒粒径约为8。
6) Fe-Nb-B ribbons
Fe-Nb-B快淬薄带
补充资料:双室油淬加压气淬真空炉ZYC_2-65
双室油淬加压气淬真空炉ZYC_2-65
双室油淬加压气淬真空炉zY02—65
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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