1) Ni-Pb monotectic alloy
Ni-Pb偏晶合金
1.
The rapid solidification of Ni-Pb monotectic alloy was investigated by melt-spun method, the alloy particles with a wide range of diameters from 40 to 400 μm and alloy ribbons with 4 mm in width and 30-50 μm in thickness were produced respectively.
采用单辊法实现了Ni-Pb偏晶合金的快速凝固,分别制备出直径40~400μm的合金粒子和宽约4mm、厚30~50μm的合金条带。
2) Ni-Pb-Cu monotectic alloy
Ni-Pb-Cu偏晶合金
1.
Rapid solidification of ternary Ni-Pb-Cu monotectic alloy under free fall conditions
自由落体条件下三元Ni-Pb-Cu偏晶合金的快速凝固
3) Cu-Pb hypermonotectic alloy
Cu-Pb过偏晶合金
1.
Characterization of rapidly solidified Cu-Pb hypermonotectic alloys
快速凝固Cu-Pb过偏晶合金的性能表征
2.
Cahn-Hilliard equation coupling with thermodynamic data was solved by Fourier transformation spectrum method with high efficiency and accuracy,and the particle growth and Ost- wald ripening for Cu-Pb hypermonotectic alloy at the isothermal condition were simulated.
采用计算效率和计算精度较高的Fourier变换谱分析方法求解Cahn-Hilliard相场方程,并耦合热力学数据,对Cu-Pb过偏晶合金在等温情况下液相分离过程中的颗粒生长和Ostwald熟化进行了模拟研究。
3.
Cahn-Hilliard equation coupling with Navier-Stokes equation is solved by Fourier transformation spectrum method due to the high efficiency and accuracy to simulate the microstructure evolution of Cu-Pb hypermonotectic alloy during the liquid separation.
采用计算效率和计算精度较高的Fourier变换谱分析方法求解Cahn-Hilliard相场方程,同时耦合Navier-Stokes方程计算了流动对Cu-Pb过偏晶合金的液相分离过程中液滴生长的影响。
4) Cu-Pb hypomonotectic alloy
亚偏晶Cu-Pb合金
5) Cu-Pb monotectic alloy
Cu-Pb偏晶合金
1.
The high undercooling and rapid solidification of Cu-Pb monotectic alloys in highly undercooled melts were studied by employing the complex method of molten glass purification and repeating superheating.
本文采用高频感应循环过热结合熔融玻璃净化法研究了Cu-Pb偏晶合金熔体深过冷及其快速凝固。
2.
The Cu-Pb monotectic alloys were prepared by the directional solidification, and the friction and wear tests of directionally solidified Cu-Pb alloys were performed under dry sliding condition and oil lubrication.
通过定向凝固制备了Cu-Pb偏晶合金试样,并分别进行了无润滑和油润滑条件下的摩擦磨损实验。
6) Cu-37.4%Pb monotectic alloy
Cu-37.4%Pb偏晶合金
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