Carbon partitioning and microstructure evolution during tempering of an Fe-Ni-C steel

Harding I; Mouton I; Gault B.; Raabe D.; Kumar K. S.

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Carbon partitioning and microstructure evolution during tempering of an Fe-Ni-C steel

机译：Fe-Ni-C钢回火过程中的碳分区和微观结构演化

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Partitioning of C during tempering of quenched Fe-9.6Ni-0.5C-0.6Mn-0.6Mo-0.7Cr-0.1V (at.%) steel is determined by atom probe tomography and the resulting microstructure is described. The precipitated austenite size, together with its C and Ni content control its thermal stability and these can vary differently with tempering time and temperature. Thus, both austenite and strong carbide formers compete for the available C early in the process. Due to widely different transport kinetics, C likely plays a dominant role early but is either fully consumed or its role diminishes by dilution, and Ni partitioning eventually takes over as the austenite stability-controlling species. (C) 2019 Acta Materialia Inc Published by Elsevier Ltd. All rights reserved.

机译：通过原子探针断层扫描测定淬火Fe-9.6Ni-0.5℃-0.5℃-0.5℃-0.5℃-0.5℃-0.5℃-0.5℃-0.5℃-0.5℃-0.6m-0.5c-0.7cr-0.1V（at。％）钢的划分。沉淀的奥氏体尺寸与其C和Ni含量控制其热稳定性，并且这些热稳定性可以随着回火时间和温度而不同地变化。因此，奥氏体和强碳化物成型器的均在该过程中早期竞争可用的C. 由于广泛不同的运输动力学，C可能早期发挥显性作用，但完全消耗或其作用通过稀释减少，并且Ni分区最终将作为奥氏体稳定控制物种接管。（c）2019 Acta Materialia Inc由elsevier有限公司出版。保留所有权利。

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《Scripta materialia》 |2019年第2019期|共5页
作者
Harding I; Mouton I; Gault B.; Raabe D.; Kumar K. S.;
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作者单位

Brown Univ Sch Engn Providence RI 02912 USA;

Max Planck Inst Eisenforsch GmbH D-40237 Dusseldorf Germany;

Max Planck Inst Eisenforsch GmbH D-40237 Dusseldorf Germany;

Max Planck Inst Eisenforsch GmbH D-40237 Dusseldorf Germany;

Brown Univ Sch Engn Providence RI 02912 USA;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
Atom probe tomography; Quench and partition steel; Tempering; Carbides; Phase transformations;

机译：原子探测断层扫描;淬火和隔离钢;回火;碳化物;相变;

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1. Carbon partitioning and microstructure evolution during tempering of an Fe-Ni-C steel [J] . Harding I, Mouton I, Gault B., Scripta materialia . 2019,第期

机译：Fe-Ni-C钢回火过程中的碳分区和微观结构演化
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Carbon partitioning and microstructure evolution during tempering of an Fe-Ni-C steel

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