1) binary iron alloys
二元铁合金
1.
The present situation of liquid binary iron alloys was discussed in terms of the structure and properties,the disadvantage in the present studies and the direction of the investigation being strengthened were also pointed out.
从结构和性质两个方面论述了近年来有关液态二元铁合金的研究现状、研究工作中的不足和今后应予以加强的研究方向。
2) rare earth ferroalloys binary mixtures
稀土铁合金二元化合物
3) binary alloy
二元合金
1.
Phase-field model of isothermal solidification of binary alloy with multiple grains;
二元合金多晶粒的枝晶生长的等温相场模型
2.
Phase-field Simulation of Non-isothermal Solidification of Binary Alloy;
二元合金非等温凝固过程的相场法模拟
3.
Based on the Miedema formation heat model for binary alloy and the Toop asymmetric geometrical model,the excess free energy,formation heat,excess entropy and the interactive coefficients of activity among all components of Si-Ca-Ba ternary alloy melts were calculated thermodynamically at 1 873 K.
根据Miedema二元合金生成热模型和Toop非对称几何模型,对1 873 K时Si-Ca-Ba三元合金熔体过剩自由能、生成热、过剩熵以及各组元间的活度交互作用系数等热力学性质进行了计算。
4) binary alloys
二元合金
1.
The dilute-limit heats of solution of binary alloys composed of Ce,Th and Yb calculated with EAM;
Ce,Th和Yb构成的二元合金稀溶解热的EAM计算
2.
The formation enthalpy of three binary alloys of transition metals(W,Nb and Ta)with Na is calculated by EAM.
运用嵌入原子方法(EAM)研究了过渡金属W、Nb、Ta与碱金属Na组成的3个二元合金的形成焓。
3.
According to determine the non-equilibrium solidification path and local liquid solute concentration in the macro transport model during solidification process of binary alloys, the two kinds of micro-scale solidification models are discussed detailedly, viz.
基于对二元合金凝固过程宏观传输耦合数学模型中非平衡凝固路径和局部液相溶质浓度的确定,详细讨论了两种不同类型的微观凝固数学模型,即凝固动力学模型和凝固微观偏析模型,对其中的确定性凝固动力学模型和微观偏析半解析模型的研究现状分别进行了回顾,分别讨论了凝固动力学模型和微观偏析模型的主要影响因素,即过冷度和形核率以及固相反向扩散和枝晶结构粗化,对凝固微观模型在合金凝固过程耦合数值模拟中的应用价值及其未来的研究方向进行了阐述。
6) Mg-Ni binary system
MgNi二元合金
补充资料:钨铁电炉出铁(吉林铁合金厂)
钨铁电炉出铁(吉林铁合金厂)
吻 他排由帕中桩了士朴屏人乙曰“
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