1) 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
2) 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。
3) melt spinning
快淬
1.
Effects of melt spinning speed on the microstructure of Nd_(4.5)Fe_(77)B_(18.5) alloy;
快淬速度对Nd_(4.5)Fe_(77)B_(18.5)合金显微组织的影响
2.
The melt spinning microstructures of Nd8Fe86B6 are Nd2Fe14B and α-Fe phase both in the nanometer scale at the quenching rate of 12m/s;a small quantity of phase dispersed in the matrix of amorphous phase at the quenching rate of 15m/s;entirely amorphous phase at the quenching rate of 18m/s.
研究了Nd8Fe86B6合金在不同快淬速度下显微组织的变化。
3.
NdxFe84-xB16(x=4,6,8,10) alloys were prepared by melt spinning method.
采用单辊快淬法制备NdxFe84-xB16(x=4,6,8,10)合金,选取磁性能最好的Nd10Fe74B16合金为研究对象,采用特殊的退火工艺对其进行热处理。
4) melt-spun
快淬
1.
By sub-overquenching to get an amorphous mixed with fine crystallites and annealing under the optimal conditions, the melt-spun (Nd_(1-x)Pr_x)_(10.
采用部分过快淬加后续晶化退火工艺,制备出了最佳磁性能的(Nd1-xPrx)10。
2.
SmCo 5 ribbons were prepared by melt-spunning method at various wheel speeds.
采用熔体快淬法 ,在不同辊速条件下制得 Sm Co5合金条带。
3.
6 was prepared by melt-spun method.
6的Nd2Fe14B/α-Fe双相快淬粉,对快淬粉进行差热分析,并将快淬磁粉在不同的温度下进行真空热处理,之后进行X射线分析和磁性能的测量。
5) as-quenched
快淬
1.
The structural, magnetic and transport properties of as-quenched and annealed Co20NixCu80-x (0≤x≤20) granular alloys prepared by melt spinning were systematically investigated.
研究了用快淬制备的铸态和退火处理后的颗粒合金膜Co20NixCu80-x(0≤x≤20)的结构、磁电阻性能。
2.
The thesis reports a systematic study of the magnetorisistance,microstructure and magnetization propertiesin as-quenched and annealed metallicribbons prepared by melt-spinning.
研究了用快淬制备的铸态和退火处理后非均匀相合金 Co15-x Fex Cu85金属条带的磁电阻、微观结构、磁性能 。
3.
We have systematically investigated the structural, magnetic and transport properties of as-quenched and annealed Co-Cu-B alloy ribbons.
研究了用快淬制备的铸态和退火处理后Co -Cu -B合金条带的磁电阻性能、微观结构 。
6) quenching
[英][kwentʃ] [美][kwɛntʃ]
快淬
1.
Only the quenching velocity above 30m/s,the alloy consists of α-Fe phase and Sm10Fe90phase with the ThCu7-type structure before the addition of Zr,Co and B elements.
采用SEM、XRD、EDX等方法分析了添加合金元素B、Zr、Co前后Sm-Fe合金铸锭的微观结构及快淬条带中的相组成。
2.
The microstructure and phase composition of Sm-Fe alloy during quenching process were investigated by means of SEM,XRD,EDX,and AFM,etc.
采用SEM、XRD、EDX、AFM等方法分析了快淬Sm-Fe合金的微观结构和相组成。
补充资料:麤快
1.简捷。
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