Nucleation Kinetics of Grain Boundary Allotriomorphs of Proeutectoid Ferrite in Fe-C-Mn-X_2 Alloys

T. TANAKA; H.I. AARONSON; M. ENOMOTO

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Nucleation Kinetics of Grain Boundary Allotriomorphs of Proeutectoid Ferrite in Fe-C-Mn-X_2 Alloys

机译：Fe-C-Mn-X_2合金中共析铁素体的晶界同素异形晶形核动力学

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The steady-state nucleation rates of ferrite allotriomorphs at the "faces" of austenite grain boundaries were measured in Fe-C-X_1X_2 alloys, where X_1 was Mn and X_2 was successively Si, Ni, and Co, using techniques previously developed. for counterpart studies on Fe-C and Fe-C-X alloys. The results were compared with the predictions of the classical nucleation theory, using the pillbox-shaped critical nucleus model. The volume free energy changes associated with nucleation in Fe-C-X_1-X_2 quaternary systems were evaluated from the central atoms model (CAM) for both para- and orthoequilibrium modes of transformation. The nucleation process was assumed to be controlled by volume and/or grain boundary diffusion of alloying elements. The so-called synergistic effects of alloying elements were considered in terms of the volume free energy change and interfacial energies on the basis of the results of the nucleation rate measurements.

机译：使用以前开发的技术，在Fe-C-X_1X_2合金中测量了奥氏体晶界“面”处铁素体同素异形体的稳态成核率，其中X_1为Mn，X_2依次为Si，Ni和Co。用于Fe-C和Fe-C-X合金的对应研究。使用药盒形临界核模型，将结果与经典成核理论的预测结果进行了比较。从中心原子模型（CAM）评估了准平衡和正交平衡转换模式下与Fe-C-X_1-X_2四元体系成核相关的体积自由能变化。假定成核过程受合金元素的体积和/或晶界扩散控制。根据成核速率测量的结果，在体积自由能变化和界面能方面考虑了合金元素的所谓协同效应。

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《Metallurgical and materials transactions. A, physical metallurgy and materials science》 |1995年第3期|p.547-559|共13页
作者
T. TANAKA; H.I. AARONSON; M. ENOMOTO;
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Department of Materials Science and Engineering, Carnegie Mellon University, Pittsburgh, PA, is Chief Researcher with Steel Research Laboratories, Nippon Steel Corporation, Chiba 299-12, Japan.;

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中图分类冶金技术;
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入库时间 2022-08-18 01:06:13

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1. Growth Kinetics of Grain Boundary Allotriomorphs of Proeutectoid Ferrite in Fe-C-Mn-X_2 Alloys [J] . T. TANAKA, H.I. AARONSON, M. ENOMOTO Metallurgical and materials transactions. A, physical metallurgy and materials science . 1995,第3期

机译：Fe-C-Mn-X_2合金中共析铁素体的晶界同素异形晶生长动力学。
2. Simulation of Nucleation of Proeutectoid Ferrite at Austenite Grain Boundaries during Continuous Cooling [J] . M. Enomoto, J.B. Yang Metallurgical and Materials Transactions A . 2008,第5期

机译：连续冷却过程中奥氏体晶界共析铁素体铁素体形核的模拟
3. Serial Sectioning and 3D-reconstruction of Ferrite Allotriomorphs Nucleated at Grain Boundary Faces in an Fe-C-Mn Alloy [J] . L. CHENG, Z. G. Ll, K. M. WU ISIJ international . 2008,第6期

机译：Fe-C-Mn合金晶界面上形核的铁素体同素异形体的连续切片和3D重建
4. The effect of manganese and nickel segregation on allotriomorph ferrite nucleation in austenite grain boundary [C] . Shunsuke TANIGUCHI, Genichi SHIGESATO, Kazuhiro FUKUNAGA, Asia steel international conference . 2012

机译：锰和镍偏析对奥氏体晶界中同素异形铁素体形核的影响
5. KINETIC TRANSITORY GRAIN REFINEMENT IN ALUMINUM AND ITS ALLOYS AND ITS RELATION TO THE HETEROGENEOUS NUCLEATION MECHANISM [D] . KOTSCHI, RONALD M. 1976

机译：铝及其合金的动态过渡晶粒细化及其与异相成核机理的关系
6. Grain Boundary Character Dependence on Nucleation of Discontinuous Precipitates in Cu-Ti Alloys [O] . Satoshi Semboshi, Mitsutaka Sato, Yasuyuki Kaneno, 2017

机译：Cu-Ti合金中断续晶核形貌的晶界特征
7. Grain Boundary Nucleation of Proeutectoid Ferrite in an Fe-C-Ni Alloy. [O] . M. Enomoto, Y. Kobayashi 1999

机译：Fe-C-Ni合金中PREUPECTOIDOITAITICE的晶粒边界核。
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。

Nucleation Kinetics of Grain Boundary Allotriomorphs of Proeutectoid Ferrite in Fe-C-Mn-X_2 Alloys

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