1) (Ti,Fe)-Al-C system
(Ti,Fe)-Al-C体系
2) (Ti-Fe)-Al-C system
(Ti-Fe)-Al-C体系
3) Al TiO 2 C Ti Fe system
Al-TiO_2-C-Ti-Fe体系
4) Fe-Ti-C system
Fe-Ti-C体系
1.
Effect of preset heating rate on combustion synthesis of Fe-Ti-C system under the action of electric field;
预设升温速度对电场作用下Fe-Ti-C体系燃烧合成的影响
2.
Using Gleeble-1500D thermal simulation equipment, the effect of Fe content on the low temperature combustion synthesis process of Fe-Ti-C system and microstructure features of the products were studied in this study.
采用Gleeble-1500D热模拟机,对电场作用下Fe含量对Fe-Ti-C体系低温燃烧合成过程和产物显微结构特征的影响进行了研究。
3.
Using Gleeble-1500D, the effect of incubation process on the low temperature combustion synthesis process of Fe-Ti-C system under several technological conditions was studied.
采用Gleeble-1500D热模拟机,在电场作用下,研究保温过程对几种工艺条件下Fe-Ti-C体系压坯低温燃烧合成过程的影响。
5) Ti-C-Fe system
Ti-C-Fe体系
6) Ti-Al-C system
Ti-Al-C体系
1.
In this paper thermodynamics analysis and kinetics mechanism on Ti-Al-C system are discussed mainly.
然而Ti-Al-C三元体系中所包含的二元相、三元相较多,生成机理复杂,因此本文主要研究该体系的热力学分析和动力学机理,分别涉及到Ti-Al-C体系的热力学计算、无压合成制备、动力学机理研究以及腐蚀性质测定。
补充资料:TC4(Ti6Al4V)焊接组织
TC4(Ti6Al4V)焊接组织
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