Nucleation-controlled selection of metastable ferrite in solidification of Fe-22mass%Mn-0.7mass%C alloy

IF 1.6 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Isij International Pub Date : 2024-08-26 DOI:10.2355/isijinternational.isijint-2024-185
Taka Narumi, Makoto Ohta, Kengo Fujita, Ryoji Katsube, Hideyuki Yasuda
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Abstract

The competition between the ferrite and austenite for nucleation in the melt can result in various solidification sequences in the Fe-based alloy. This study demonstrates that the austenite solidification was initiated by metastable ferrite nucleation followed by ferrite-austenite transformation even in Fe-22mass%Mn-0.7mass%C, where the austenite is the primary phase in equilibrium. Time-resolved X-ray diffraction measurements were performed using a time-resolved X-ray tomography apparatus to identify the metastable ferrite nucleation followed by the austenite solidification. X-ray radiography was performed to observe the microstructure evolution through the metastable ferrite nucleation followed by the austenite solidification. The metastable ferrite nucleation was preferably selected when the completely melted specimen was cooled. During subsequent cooling, the ferrite massively transformed to the austenite in the solid state, and multiple austenite grains were produced in a single ferrite grain through ferrite-austenite transformation. The ferrite-austenite transformation was immediately followed by the coarsening of multiple austenite grains. When the ferrite-austenite transformation occurred in a semisolid state consisting of the ferrite and liquid phase, the liquid phase, which isolated the austenite grains, suppressed the coarsening of austenite grain. The typical austenite grain size ranged from 100 to 500 μm. Thus, the present results suggest that the ferrite-austenite transformation following the metastable ferrite nucleation has the potential to control the austenite grain size in as-cast microstructures.

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在 Fe-22mass%Mn-0.7mass%C 合金凝固过程中受成核控制的可转移铁素体选择
铁素体和奥氏体在熔体中的成核竞争会导致铁基合金出现各种凝固顺序。本研究表明,即使在奥氏体为主要平衡相的 Fe-22mass%Mn-0.7mass%C 中,奥氏体凝固也是由可转移铁素体成核启动,然后是铁素体-奥氏体转变。使用时间分辨 X 射线层析成像仪进行了时间分辨 X 射线衍射测量,以确定奥氏体凝固后的可转移铁素体成核。通过 X 射线射线照相术,观察到了在可变质铁素体成核和奥氏体凝固过程中的微观结构演变。最好选择在完全熔化的试样冷却时进行易流铁素体成核。在随后的冷却过程中,铁素体在固态下大量转变为奥氏体,并通过铁素体-奥氏体转变在单个铁素体晶粒中产生多个奥氏体晶粒。铁素体-奥氏体转变之后,多个奥氏体晶粒随即粗化。当铁素体-奥氏体转变发生在由铁素体和液相组成的半固态时,隔离奥氏体晶粒的液相抑制了奥氏体晶粒的粗化。典型的奥氏体晶粒大小在 100 至 500 μm 之间。因此,本研究结果表明,可变质铁素体成核后的铁素体-奥氏体转变有可能控制铸态微结构中的奥氏体晶粒大小。
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来源期刊
Isij International
Isij International 工程技术-冶金工程
CiteScore
3.40
自引率
16.70%
发文量
268
审稿时长
2.6 months
期刊介绍: The journal provides an international medium for the publication of fundamental and technological aspects of the properties, structure, characterization and modeling, processing, fabrication, and environmental issues of iron and steel, along with related engineering materials.
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