1) Fe-C martensite
Fe-C马氏体
2) Fe-V-C system
Fe-V-C体系
1.
3×104 A) on the combustion synthesis of Fe-V-C system was studied.
3×104A)对Fe-V-C体系燃烧合成的影响。
2.
Using Gleeble-3500D thermal simulation equipment,the microstructure evolution of combustion synthesis of Fe-V-C system was studied by analytical experiment of the compacts of Fe-V-C mixture powders heating to 400~1100 ℃.
采用Gleeble-3500D热模拟机,通过对Fe-V-C粉末压坯分别升温至400~1100℃的解析实验,研究Fe-V-C体系在电场作用下燃烧合成的显微组织转变。
3) 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。
4) Fe-C-N melt
Fe-C-N熔体
5) Fe-C-Nb melt
Fe-C-Nb熔体
1.
The saturated solubility of carbon in Fe-C-Nb melt can be calculated with the following formula: xC=0.
Fe-C-Nb熔体中C的饱和溶解度计算式为xC=0。
6) Fe-C-B melts
Fe-C-B熔体
1.
The saturated solubility of carbon in Fe-C-V and Fe-C-B melts was measured experimentally at 1435,1485 ℃ to obtain the activity interaction coefficients between components in these melts.
在1435,1485℃时分别测定了C在Fe-C-V和Fe-C-B熔体中的饱和溶解度。
补充资料:起马
1.启程;动身。 2.比喻开始走上宦途。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条