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1)  double-roller rapid quenching
双辊快淬
1.
A sort of rare earth Mg-based system hydrogen storage alloys with AB3-type was prepared by double-roller rapid quenching method.
双辊快淬法制备的AB3型稀土镁基贮氢合金,经X射线衍射和SEM分析表明,该贮氢合金具有纳米晶结构,由LaNi3相和LaNi5相组成。
2.
The nanocrystalline AB_5 type rich-lanthanum rare earth hydrogen storage alloys were prepared by double-roller rapid quenching.
双辊快淬工艺制备了纳米晶 AB_5型富镧稀土贮氢合金。
2)  double-roller rapid quenching technology
双辊快淬法
3)  Rapid Solidification with Single Roller
单辊快淬
1.
Microstructure and Aging Hardening Properties of Cu-Be Alloy Prepared by Rapid Solidification with Single Roller;
单辊快淬Cu-Be合金的显微组织及时效性能
4)  twin-roll process
双辊淬冷法
5)  melt-spinning
快淬
1.
Effect of quenching rate on phase transformation of Ni-Mn-Ga melt-spinning alloys;
淬速对Ni-Mn-Ga快淬合金相变的影响
2.
4)nanocomposite ribbons prepared by melt-spinning at rolling speed V=22m/s were investigated by methods of VSM.
用振动样品磁强计(VSM)研究了PrxFe94 3-xB5 7Zr1 (x=9 4 ,9 8,10 2 ,10 6 ,11,11 4 )系列快淬带在淬速V =2 2m s的淬态和真空退火态(6 70℃)样品的磁性能和磁滞回线的变化情况,发现该系列合金在淬速V =2 0m s下样品S2 (Pr1 1 Fe83 3B5 7Zr1 )取得了最好的磁性能为:Jr =0 76T ,Hc =977 3kA m ,(BH) max=98 8kJ m3;最佳快淬和晶化热处理都可以使软磁相与硬磁相耦合。
3.
The non-stoichiometric Ni50Mn27Ga23 polycrystalline ribbons were prepared by melt-spinning technique.
采用快淬技术制备了非化学计量成分的Ni50Mn27Ga23多晶薄带,对快淬薄带的马氏体相变和磁感生应变进行了研究。
6)  rapid quenching
快淬
1.
The microstructures and electrochemical capacities of La_2Mg(Ni_(0.85)Co_(0.15))_9B_x(x=0 ~0.2) hydrogen storage alloys prepared by casting and rapid quenching;
铸态及快淬态La_2Mg(Ni_(0.85)Co_(0.15))_9B_x(x=0~0.2)贮氢合金的微观结构与电化学容量(英文)
2.
Effects of boron additive and rapid quenching technique on the microstructrue and electrochemical capacity of La-Mg-Ni system hydrogen storage alloy;
硼及快淬工艺对La-Mg-Ni系贮氢合金的微观结构及电化学容量的影响
3.
The effects of rapid quenching on the electrochemical characteristics of Mm(NiCoMnAl)_5B_xhydrogen storage alloys;
熔体快淬对Mm(NiCoMnAl)_5B_x贮氢合金电化学性能的影响
补充资料:快淬磁体
分子式:
CAS号:

性质:经真空熔炼成的Nd-Fe-B永磁合金,以熔融状态处在惰性气氛保护的石英坩埚中,当在压力作用下经过容器底部细孔喷射到高速旋转的水冷铜辊的外缘上,以105~106℃/S速度冷却,形成非晶态或微晶的窄薄带,再制成粉,由此制成的磁体称为快淬磁体。有利于生产过程自动化、连续化;产品内禀矫顽力及磁化强度都很高,缺点磁能积较低,一般60~80kJ/m3(8~10MGOe)。

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