1) FeCoNi ternary alloy
FeCoNi三元合金
2) Ternary alloy
三元合金
1.
Calculation of ternary alloy surface tension with binary alloy segregation factors;
通过二元熔体的偏析因子计算三元合金的表面张力
2.
Simulation of isothermal solidification of ternary alloy with phase-field model;
三元合金等温凝固过程的相场法模拟
3.
Fabrication of Al-Cu-Fe & Al- Si-Fe ternary alloy powders by solid-liquid reaction milling;
固液反应球磨制备Al-Cu-Fe与Al-Si-Fe三元合金
3) ternary alloys
三元合金
1.
Gibbs free energies of ternary alloys are calculated from the thermodynamic data of binary alloys by the Toop's method.
基于非晶形成的热力学观点 ,提出一种定量预测三元合金非晶形成成分范围的方法 。
2.
Based on Miedema model for calculating the formation heat of binary system and Kohler\'s model,a new model was established for calculating activity coefficients in ternary alloys.
利用Miedema二元系统生成热模型和Kohler模型,建立计算三元合金各组分的活度系数模型,并利用该模型计算三元液态体系Cu-Sb-Zn、Cu-Sn-Zn、Ag-Cu-Ge、Al-Fe-Si和三元固态体系C-Fe-Co及C-Fe-Ni等组分的活度或活度系数,同时与有关实验值进行对比。
4) Cu Co Ni alloys
CuCoNi三元合金
5) ternary alloy systems
三元合金系
1.
The progresses on the study of the phase diagrams and the phase transition of ternary alloy systems containing gold in recent years in the world were reviewed.
评述了1996~2007年国际上对含金三元合金系相图、相变的研究进展。
6) trimetallic membrane
三元合金膜
1.
γ-Al2O3 coating was coated on the surface of theα-Al2O3 ceramic tube to prepareγ-Al2O3 modified ceramic support which was used to prepare membrane catalysis, then Pd-Ag bimetallic membrane catalysts which contains 25% Ag, 50%Ag and 75% respectively, and Pd-Ag-Pt, Pd-Ag-Au trimetallic membrane catalysts were prepared on the surface of ceramic tubes modified byγ-Al2O3 coating.
在α-Al2O3基体膜管上涂γ-Al2O3涂层制备γ-Al2O3陶瓷改性载体,并利用γ-Al2O3改性的陶瓷载体制备银含量分别为25%、50%和75%的Pd-Ag二元合金膜催化剂以及Pd-Ag-Pt、Pd-Ag-Au三元合金膜催化剂,通过SEM、XRD、SEM-EDS、BET等表征手段对改性载体和合金膜催化剂进行表征,在膜反应器中进行氢氧直接合成过氧化氢反应,考察了催化剂载体改性和合金膜改性对氢氧直接合成反应的影响规律。
补充资料:三元合金
分子式:
分子量:
CAS号:
性质:见合金。
分子量:
CAS号:
性质:见合金。
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