Carbon solubility in Fe-Mn melts (XFe =0. 102 3-0. 789 9, XMn =0. 055 1-0. 638 0) was measured experimentally at various temperatures. Using Gibbs-Duhem equation, in combination with the experimental results in this...Carbon solubility in Fe-Mn melts (XFe =0. 102 3-0. 789 9, XMn =0. 055 1-0. 638 0) was measured experimentally at various temperatures. Using Gibbs-Duhem equation, in combination with the experimental results in this work, quoting experimental data reported in references, and by strict thermodynamic derivation and calculation, the relation equations between the activity interaction parameters in Fe-C system and temperature were obtained. The calculation equation of lnyFe. in Fe-C system was also obtained. The calculated results show that these relation equations can be used to calculate the activity coefficients of carbon and iron in Fe-C system and can satisfy the necessary condition to satisfy Gibbs-Duhem equation and the necessary condition to satisfy the stability condition of system at high carbon content. The calculation formula for lnTc in Fe-Mn-C system was also obtained.展开更多
Carbon solubility in Mn Fe melts (xMn =0. 083-0. 706, XFe =0. 034-0. 715) was measured experimentally at various temperatures. By thermodynamic derivation and calculation, the relationship between activity coefficie...Carbon solubility in Mn Fe melts (xMn =0. 083-0. 706, XFe =0. 034-0. 715) was measured experimentally at various temperatures. By thermodynamic derivation and calculation, the relationship between activity coefficient of carbon in infinite dilute solution of manganese in Mn-C system and temperature was obtained. Using Gibbs-Duhem relationship, the experimental results of this study, and experimental data obtained by strict thermodynamic derivation and calculation in references, the relationships between other thermodynamic properties (εCC, εCCC, εCFe, εCCFe, and εCFeFe) in Mn-Fe-C system and temperature were obtained.展开更多
基金Item Sponsored by National Natural Science Foundation of China (50374002)
文摘Carbon solubility in Fe-Mn melts (XFe =0. 102 3-0. 789 9, XMn =0. 055 1-0. 638 0) was measured experimentally at various temperatures. Using Gibbs-Duhem equation, in combination with the experimental results in this work, quoting experimental data reported in references, and by strict thermodynamic derivation and calculation, the relation equations between the activity interaction parameters in Fe-C system and temperature were obtained. The calculation equation of lnyFe. in Fe-C system was also obtained. The calculated results show that these relation equations can be used to calculate the activity coefficients of carbon and iron in Fe-C system and can satisfy the necessary condition to satisfy Gibbs-Duhem equation and the necessary condition to satisfy the stability condition of system at high carbon content. The calculation formula for lnTc in Fe-Mn-C system was also obtained.
基金National Natural Science Foundation of China (50374002)
文摘Carbon solubility in Mn Fe melts (xMn =0. 083-0. 706, XFe =0. 034-0. 715) was measured experimentally at various temperatures. By thermodynamic derivation and calculation, the relationship between activity coefficient of carbon in infinite dilute solution of manganese in Mn-C system and temperature was obtained. Using Gibbs-Duhem relationship, the experimental results of this study, and experimental data obtained by strict thermodynamic derivation and calculation in references, the relationships between other thermodynamic properties (εCC, εCCC, εCFe, εCCFe, and εCFeFe) in Mn-Fe-C system and temperature were obtained.
