Thermodynamic Model for Calculating Activity of Nitrogen and Boron in Fe-C-B-N Molten Metal

Thermodynamic Model for Calculating Activity of Nitrogen and Boron in Fe-C-B-N Molten Metal

The solubility of nitrogen in Fe-C-B-N system was measured at 1 758 K,and the computational model on activity (action concentration) of nitrogen and boron was established based on phase diagram and the coexistence theory about metal melt structure model. Comparing the computed results with the exper...

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Veröffentlicht in:Journal of iron and steel research, international international, 2009-05, Vol.16 (3), p.15-19
Hauptverfasser: WANG, Shi-jun, PENG, Jun, DONG, Yuan-chi, LIU, Li-xia, ZHOU, Yun, CHEN, Er-bao
Format: Artikel
Sprache:eng
Schlagworte:
action concentration
activity
Applied and Technical Physics
Boron
Carbon
coexistence theory
Computation
Engineering
Graphite
Iron and steel industry
Liquid metals
Machines
Manufacturing
Materials Engineering
Materials Science
Melts
Metallic Materials
molten metal
Physical Chemistry
Processes
Steels
活性氮
液态金属
热力学模型
碳化硼
立方氮化硼
计算模型
金属熔体
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Zusammenfassung:The solubility of nitrogen in Fe-C-B-N system was measured at 1 758 K,and the computational model on activity (action concentration) of nitrogen and boron was established based on phase diagram and the coexistence theory about metal melt structure model. Comparing the computed results with the experimental results,satisfactory conclusion can be obtained. The result shows that BN and B4C can exist in Fe-C-B-N molten metal at high temperature,which consequently restrains the nitrogen removal from the melt. However,B4C content is extremely low. Before graphite is precipitated,the influence of carbon on activity of nitrogen in melt is higher in ternary system than in binary system; however,this effect is contrary to that after graphite is precipitated.
ISSN:1006-706X
2210-3988
DOI:10.1016/S1006-706X(09)60037-6