Self-Consistent Model for Planar Ferrite Growth in Fe-C-X Alloys

H.S. ZUROB; D. PANAHI; G.R. PURDY

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Self-Consistent Model for Planar Ferrite Growth in Fe-C-X Alloys

机译：Fe-C-X合金中平面铁素体生长的自洽模型

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A self-consistent model for non-partitioning planar ferrite growth from alloyed austenite is presented. The model captures the evolution with time of interfacial contact conditions for substitutional and interstitial solutes. Substitutional element solute drag is evaluated in terms of the dissipation of free energy within the interface, and an estimate is provided for the rate of buildup of the alloying element "spike" in austenite. The transport of the alloying elements within the interface region is modeled using a discrete-jump model, while the bulk diffusion of C is treated using a standard continuum treatment. The model is validated against ferrite pre cipitation and decarburization kinetics in the Fe-Ni-C, Fe-Mn-C, and Fe-Mo-C systems.

机译：建立了合金奥氏体非分区平面铁素体生长的自洽模型。该模型捕获了替代溶质和间隙溶质的界面接触条件随时间的演变。根据界面内自由能的耗散来评估替代元素的溶质阻力，并对奥氏体中合金元素“尖峰”的堆积速率进行了估算。使用离散跳跃模型对界面区域内合金元素的传输进行建模，同时使用标准连续介质处理来处理C的整体扩散。该模型针对Fe-Ni-C，Fe-Mn-C和Fe-Mo-C系统中的铁素体沉淀和脱碳动力学进行了验证。

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《Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science 》 |2013年第8期| 共16页
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H.S. ZUROB; D. PANAHI; G.R. PURDY;
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1. Self-Consistent Model for Planar Ferrite Growth in Fe-C-X Alloys [J] . H.S. ZUROB, D. PANAHI, G.R. PURDY Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2013 ,第8期

机译：Fe-C-X合金中平面铁素体生长的自洽模型
2. The growth of ferrite in Fe-C-X alloys: The role of thermodynamics, diffusion, and interfacial conditions [J] . C. R. Hutchinson, H. S. Zurob, Y. Bréchet Metallurgical and Materials Transactions A . 2006 ,第6期

机译：Fe-C-X合金中铁素体的生长：热力学，扩散和界面条件的作用
3. The Growth of Ferrite in Fe-C-X Alloys: The Role of Thermodynamics, Diffusion, and Interfacial Conditions [J] . C.R. HUTCHINSON, H.S. ZUROB, Y. BRECHET Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2006 ,第6期

机译：Fe-C-X合金中铁素体的生长：热力学，扩散和界面条件的作用
4. A STUDY OF THE AUSTENITE TO FERRITE TRANSFORMATION IN Fe-C-X ALLOYS USING DECARBURIZATION EXPERIMENTS [C] . H. S. Zurob, C. R. Hutchinson, Y. Brechet, International Conference on Solid - Solid Phase Transformations in Inorganic Materials 2005 vol.1; 20050529-0603; Phoenix,AZ(US) . 2005

机译：利用脱碳实验研究Fe-C-X合金中奥氏体到铁素体的转变
5. Analysis, modelling, and design of microwave planar ferrite devices and antenna circuits using spectral domain method of moments. [D] . Elshafiey, Tarief M. Fawzy. 1996

机译：使用矩谱域方法对微波平面铁氧体器件和天线电路进行分析，建模和设计。
6. CA Modeling of Microsegregation and Growth of Equiaxed Dendrites in the Binary Al-Mg Alloy [O] . Andrzej Zyska 2021

机译：二元Al-Mg合金中的微观次级测定和等轴树枝状细胞生长的CA模型
7. Comparison of alloy element partition behavior and growth kinetics of proeutectoid ferrite in Fe-C-X alloys with diffusion growth theory. [O] . Masato ENOMOTO 1988

机译：用扩散增长理论对Pe-C-X合金进行PREUTectoid铁氧体的合金元素分区行为及生长动力学的比较。
8. Interfacial Structure, Growth Kinetics and Mechanisms of the Proeutectoid Ferrite Reaction in Fe-C and Fe-C-X Alloys. [R] . Aaronson, H. I., Rigsbee, J. M., Bradley, J. R., 1976

机译：Fe-C和Fe-C-X合金中先共析铁素体反应的界面结构，生长动力学和机理。

Self-Consistent Model for Planar Ferrite Growth in Fe-C-X Alloys

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