Producing superfine low-carbon bainitic structure through a new combined thermo-mechanical process

Zhao Leijie; Qian Lihe; Liu Shuai; Zhou Qian; Meng Jiangying; Zheng Chunlei; Zhang Fucheng

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Producing superfine low-carbon bainitic structure through a new combined thermo-mechanical process

机译：通过新的热机械联合工艺生产超细低碳贝氏体结构

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Recently, many steel researchers have been attempting to develop superfine low-carbon bainitic microstructure; however, the results are not satisfactory. In this paper, we applied a new thermo-mechanical process for achieving low-carbon superfine bainitic structure. By applying the new process, i.e. ausforming at temperatures above Ms followed by austempering at 355 degrees C, which is below Ms, we successfully obtained a superfine, ladder-like bainitic structure, with bainitic laths as thin as similar to 100 nm and Vickers hardness as high as similar to 500 HV, being of the same level of medium-carbon bainitic steels. This new process shows a potential for wide industrial applications. (C) 2016 Published by Elsevier B.V.

机译：最近，许多钢铁研究人员一直在尝试开发超细低碳贝氏体组织。但是，结果并不令人满意。在本文中，我们应用了一种新的热机械方法来实现低碳超细贝氏体结构。通过应用新工艺，即在高于Ms的温度下进行奥氏体化，然后在低于Ms的355摄氏度下进行奥氏体化，我们成功地获得了一种超细的阶梯状贝氏体结构，贝氏体板条的厚度薄至100 nm，并且具有维氏硬度高达500 HV，与中碳贝氏体钢水平相同。这种新工艺显示了广泛的工业应用潜力。（C）2016由Elsevier B.V.发布

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2016年第null期|共4页
作者
Zhao Leijie; Qian Lihe; Liu Shuai; Zhou Qian; Meng Jiangying; Zheng Chunlei; Zhang Fucheng;
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正文语种 eng
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Metals and alloys; Bainitic steel; Ausforming; Austempering; Phase transformation;

机译：金属和合金;贝氏体钢;奥氏体成形;奥氏体回火;相变;

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1. Producing superfine low-carbon bainitic structure through a new combined thermo-mechanical process [J] . Zhao Leijie, Qian Lihe, Liu Shuai, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2016,第Null期

机译：通过新的热机械联合工艺生产超细低碳贝氏体结构
2. Microstructural and mechanical properties of low-carbon ultra-fine bainitic steel produced by multi-step austempering process [J] . Hamid Mousalou, Sasan Yazdani, Behzad Avishan, Materials Science and Engineering . 2018,第SEPa12期

机译：多步回火工艺生产的低碳超细贝氏体钢的组织和力学性能
3. PROCESS FOR VERY LOW-CARBON INTERSTITIAL FREE (IF) AND ULTRA LOW CARBON BAINITIC (ULCB) STEEL, UTILIZING COMBINED INJECTION CONVERTERS, CONTINUOUS CASTING AND ROLLING [J] . V. Munteanu, A. Grigore, I. Tofan Metalurgia . 2002,第11期

机译：极低碳无间隙（IF）和超低碳贝氏体（ULCB）钢的工艺，采用联合喷射转换器，连续铸造和轧制
4. Research on Microstructure Characteristics and Strengthening Mechanism of Low-Carbon Bainitic High Strength Steel Produced by CSP [C] . CHEN Lin-heng, KANG Yong-lin, WEN De-zhi, 2009年薄板坯连铸连轧国际研讨会（TSCR 2009）（2009 International Symposium on Thin Slab Casting and Rolling） . 2009

机译：CSP生产的低碳贝氏体高强度钢的组织特征及强化机理研究
5. Extrusion machining: A thermo-mechanical process for producing strips of alloys having limited workability [D] . Efe, Mert. 2012

机译：挤压机加工：一种热机械方法，用于生产加工性有限的合金带材
6. Impact Toughness of Subzones in the Intercritical Heat-Affected Zone of Low-Carbon Bainitic Steel [O] . Zhenshun Li, Xuemin Zhao, Dongri Shan 2018

机译：低碳贝氏体钢在临界热影响区中子区的冲击韧性
7. Evolution of Microstructure in a Cu-Cr in situ Composite Produced by Thermo-Mechanical Processing [O] . Keming Liu, Deping Lu, Kai Fu, 2017

机译：热机械加工生产的Cu-Cr中微观结构的演化

Producing superfine low-carbon bainitic structure through a new combined thermo-mechanical process

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