Stability of retained austenite in martensitic high carbon steels. Part I: Thermal stability

Wen Cui; David San-Martin; Pedro E.J. Rivera-Diaz-del-Castillo

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Stability of retained austenite in martensitic high carbon steels. Part I: Thermal stability

机译：马氏体高碳钢中残留奥氏体的稳定性。第一部分：热稳定性

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Thermal stability of retained austenite in 1C-1.5Cr steels with two Si and Mn contents is studied. Time-resolved high resolution synchrotron X-ray radiation and dilatometry are employed. The threshold transformation temperatures, decomposition kinetics, associated transformation strain, as well as the influence of Si and Mn were investigated. The coefficients of linear thermal expansion for both the bulk materials and individual phases are also obtained. The results indicate that an increase in the Mn and Si contents show little influence on the onset of retained austenite decomposition, but result in more thermally stable austenite. The decomposition is accompanied by a simultaneous increase in ferrite content which causes an expansive strain in the order of 10~(-4), and subsequent cementite development from 300 to 350 ℃ which causes a contraction that helps to neutralise the expansive strain. During decomposition, a continuous increase in the carbon content of austenite, and a reduction in that of the tempered-martensite/ferrite phase was observed. This process continued at elevated temperatures until full decomposition was reached, which could take less than an hour at a heating rate of 0.05 ℃/s. Additionally, the observation of austenite peak splitting on samples with high Mn and Si contents suggests the existence of austenite of different stabilities in such matrix.

机译：研究了具有两种Si和Mn含量的1C-1.5Cr钢中残留奥氏体的热稳定性。使用时间分辨的高分辨率同步加速器X射线辐射和膨胀法。研究了阈值转变温度，分解动力学，相关的转变应变以及硅和锰的影响。还获得了散装材料和各个相的线性热膨胀系数。结果表明，Mn和Si含量的增加对残余奥氏体分解的开始几乎没有影响，但是导致了更热稳定的奥氏体。分解伴随着铁素体含量的同时增加，引起大约10〜（-4）的膨胀应变，随后渗碳体从300℃发展到350℃，引起收缩，有助于中和膨胀应变。在分解期间，观察到奥氏体的碳含量连续增加，并且回火马氏体/铁素体相的碳含量降低。此过程在升高的温度下继续进行，直到达到完全分解为止，在0.05℃/ s的加热速率下，此过程可能不到一个小时。另外，在具有高Mn和Si含量的样品上观察到奥氏体峰分裂表明在这种基质中存在具有不同稳定性的奥氏体。

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《Materials Science and Engineering》 |2018年第10期|683-695|共13页
作者
Wen Cui; David San-Martin; Pedro E.J. Rivera-Diaz-del-Castillo;
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作者单位

SKF University Technology Centre, Department of Materials Science and Metallurgy, University of Cambridge, 27 Charles Babbage Road, Cambridge CB3 OFS, UK;

MATERALIA Research Group, Department of Physical Metallurgy, Centro Nacional de Imestigaciones Metahtrgicas (CENM-CSIC), Av. Gregorio del Amo 8, 28040 Madrid, Spain;

Department of Engineering, Lancaster University, Lancaster LAI 4YW, UK;

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正文语种 eng
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关键词
Austenite; Phase stability; Synchrotron radiation; Dilatometry; Martensitic bearing steels;

机译：奥氏体相稳定性;同步辐射膨胀计;马氏体轴承钢;

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1. Stability of retained austenite in martensitic high carbon steels. Part Ⅱ: Mechanical stability [J] . Wen Cui, Marius Gintalas, Pedro E.J. Rivera-Diaz-del-Castillo Materials Science and Engineering . 2018,第jana10期

机译：马氏体高碳钢中残留奥氏体的稳定性。第二部分：机械稳定性
2. Thermal and mechanical stability of retained austenite in high carbon steel: An in-situ investigation [J] . Molkeri Abhilash, Pahlevani Farshid, Emmanuelawati Irene, Materials Letters . 2016,第JANa15期

机译：高碳钢中残余奥氏体的热和机械稳定性：原位研究
3. Thermal Stability of Retained Austenite in High-carbon Steels during Cryogenic and Tempering Treatments [J] . Xun QIAO, Lizhan HAN, Weimin ZHANG, ISIJ international . 2016,第1期

机译：低温回火处理过程中高碳钢中残余奥氏体的热稳定性
4. STABILITY OF RETAINED AUSTENITE IN HIGH-STRENGTH MARTENSITIC STEELS DURING COLD DEFORMATION [C] . Stepan Jenicek, Dagmar Bublikova, Hana Jirkova, DAAAM International Symposium on Intelligent Manufacturing and Automation . 2018

机译：冷变形期间高强度马氏体钢保持奥氏体的稳定性
5. Microstructural effects on the stability of retained austenite in Transformation Induced Plasticity steels. [D] . Mark, Alison Fiona Lockie. 2008

机译：显微组织对相变诱导塑性钢中残余奥氏体稳定性的影响。
6. Cryogenic study of the magnetic and thermal stability of retained austenite in nanostructured bainite [O] . Arántzazu Argüelles, Florentina Barbés, Jose I. Espeso, 2019

机译：纳米贝氏体中残余奥氏体的磁和热稳定性的低温研究
7. Stability of retained austenite in martensitic high carbon steels. Part I: Thermal stability [O] . Wen Cui, David San-Martín, Pedro E.J. Rivera-Díaz-del-Castillo 2018

机译：保留奥氏体在马氏体高碳钢中的稳定性。第一部分：热稳定性

Stability of retained austenite in martensitic high carbon steels. Part I: Thermal stability

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