Microstructure of Low C Steel Isothermally Transformed in the M S </sub> to M f </sub> Temperature Range

Donghwi Kim; Seok-Jae Lee; Bruno C. De Cooman

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Microstructure of Low C Steel Isothermally Transformed in the M S to M f Temperature Range

机译：M S 至M f 温度范围内等温转变的低碳钢的显微组织

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An isothermal transformation was observed when a fully austenitized lean-alloyed, low C steel was quenched to a temperature in the M S to M f temperature range and held at the quenching temperature. The dilatometric analysis revealed that the isothermal transformation was distinct from the bainitic transformation. Internal friction (IF) measurements and X-ray diffraction (XRD) analysis showed that the dislocation density in the isothermal transformation product was larger than in lower bainite, and lower than in athermal martensite. Microstructural analysis by transmission electron microscopy (TEM) revealed that the isothermal transformation product had a specific microstructure consisting of large lath-type constituent units with wavy boundaries, with a Nishiyama–Wassermann orientation relationship (NW OR) with respect to the parent austenite. The isothermal transformation below M S proceeds by the thickening of athermally formed laths.

机译：将完全奥氏体化的贫合金低碳钢淬火至M S 至M f 温度范围内的温度并保持在淬火温度时，观察到等温转变。膨胀分析表明等温转变不同于贝氏体转变。内摩擦（IF）测量和X射线衍射（XRD）分析表明，等温转变产物中的位错密度大于下部贝氏体，而小于无热马氏体。透射电子显微镜（TEM）的显微结构分析表明，等温转变产物具有特定的微观结构，该结构由具有波浪边界的大型板条型组成单元组成，相对于母奥氏体具有Nishiyama-Wassermann取向关系（NW OR）。低于M S 的等温转变是通过非热成型板条的加厚而进行的。

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《Metallurgical and Materials Transactions A》 |2012年第13期|p.4967-4983|共17页
作者
Donghwi Kim; Seok-Jae Lee; Bruno C. De Cooman;
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Materials Design Laboratory, Graduate Institute of Ferrous Technology, Pohang University of Science and Technology, Pohang, 790-784, South Korea;

Materials Design Laboratory, Graduate Institute of Ferrous Technology, Pohang University of Science and Technology, Pohang, 790-784, South Korea;

Materials Design Laboratory, Graduate Institute of Ferrous Technology, Pohang University of Science and Technology, Pohang, 790-784, South Korea;

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Microstructure of Low C Steel Isothermally Transformed in the M S to M f Temperature Range

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