Fe-Ni-C, Fe-Cr-C合金热力学性质的计算建模

W. U. Shah, D. Khan, S. Jan, Haiqing Yin
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引用次数: 0

摘要

本文采用建模和仿真的方法研究了Fe-Cr-C、Fe-Ni-C合金体系的热力学性能。利用带数据库的热计算软件进行计算并得出结果。计算表明合金在(1900K-2000K)温度范围内。大气压保持恒定106帕斯卡。在1900K时,C组分的活性相为液相,质量%为1.00。Fe-Ni-C体系的总吉布斯能减小,表明了体系的稳定性。在Fe-C体系中,Cr的溶解度小于Ni的溶解度。系统的焓和熵与合金的温升和耦合性能呈近似线性关系。在合金化过程中,熵的BCC比焓的BCC更敏感。Fe-Ni-C负偏离Raoults定律,正偏离vegard定律和Henry定律。耐温相为热膨胀系数最高的石墨。在Fe-Cr-C体系中发现了最高的t - 0波动。该合金在低温下碳的溶解度较小,而在高温下合金化效果较好,在Fe-Ni-C体系中具有较好的工业应用前景。
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Modeling of thermodynamic properties of Fe-Ni-C, Fe-Cr-C alloys using computational approach
The paper shows the thermodynamic properties of alloys Fe-Cr-C, Fe-Ni-C system using modeling and simulation approach. The thermo-calc software with databases is utilized for calculations and results. The calculation shows alloying at (1900K-2000K) temperature range. The atmospheric pressure is kept constant 106 Pascal. The active phase at 1900K is liquid phase with 1.00 mass % for C compositions. The total Gibbs energy is found decreasing in the Fe-Ni-C system, which shows the stability of the system. The solubility of Cr is found less than the solubility of Ni in the Fe-C system as investigated during activities simulations. The enthalpy and entropy of the system is found of the near linear relation with temperature raise and coupling properties of the alloying.BCC of entropy is more responsive than BCC of enthalpy during alloying. The Fe-Ni-C shows negative deviations from Raoults law and corresponding positive deviations from vegard’s and Henry law. The withstanding phase is graphite with highest thermal expansion coefficient. The highest T-zero fluctuations is noted in the Fe-Cr-C system. The alloy shows the less solubility of the carbon at low temperature, while results the great alloying at higher temperature in the Fe-Ni-C system better industrial aspects.
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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