Acicular ferritic microstructure of a low-carbon Mn-Mo-Nb microalloyed pipeline steel

Furen Xiao; Bo Liao; Deliang Ren

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Acicular ferritic microstructure of a low-carbon Mn-Mo-Nb microalloyed pipeline steel

机译：低碳Mn-Mo-Nb微合金管线钢的针状铁素体显微组织

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The transformations during continuous cooling and isothermal processes, the effects of hot deformation and the morphology of the final microstructure of a low-carbon Mn-Mo-Nb microalloyed pipeline steel designed for acicular ferrite microstructure were investigated. The results show that there are three independent "C" curves for isothermal phase transformation, i.e., TTT diagram, of low-carbon microalloyed steel, namely, polygonal ferrite-pearlite transformation "C" curve, the massive ferrite transformation "C" curve and the bainitic transformation "C" curve, respectively. Hot deformation accelerates acicular ferrite transformation and refines the steel's matrix. The microstructure of acicular ferrite for pipeline steels was discussed.

机译：研究了用于针状铁素体组织的低碳Mn-Mo-Nb微合金管线钢在连续冷却和等温过程中的转变，热变形的影响以及最终组织的形态。结果表明，低碳微合金钢的等温相变存在三个独立的“ C”曲线，即TTT图，即多边形铁素体-珠光体相变“ C”曲线，块状铁素体相变“ C”曲线和贝氏体转化“ C”曲线。热变形可加速针状铁素体相变并细化钢的基体。讨论了用于管线钢的针状铁素体的显微组织。

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《Materials Characterization》 |2005年第5期|共10页
作者
Furen Xiao; Bo Liao; Deliang Ren;
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正文语种 eng
中图分类工程材料学;
关键词
Pipeline steel; Acicular ferrite; CCT diagram; TTT diagram;

机译：管线钢;针状铁素体;CCT图;TTT图;

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专利

1. Acicular ferritic microstructure of a low-carbon Mn-Mo-Nb microalloyed pipeline steel [J] . Furen Xiao, Bo Liao, Deliang Ren Materials Characterization . 2005,第4a5期

机译：低碳Mn-Mo-Nb微合金管线钢的针状铁素体显微组织
2. Correlation of microstructures and low temperature toughness in low carbon Mn-Mo-Nb pipeline steel [J] . B. X. Wang, X. H. Liu, G. D. Wang Materials Science and Technology: MST: A publication of the Institute of Metals . 2013,第12期

机译：低碳Mn-Mo-Nb管线钢的组织与低温韧性的相关性
3. Comparison on strength and toughness behaviors of microalloyed pipeline steels with acicular ferrite and ultrafine ferrite [J] . Ming-Chun Zhao, Ke Yang, Yi-Yin Shan Materials Letters . 2003,第9a10期

机译：针状铁素体和超细铁素体微合金管线钢的强度和韧性行为比较
4. Acicular Ferrite Microstructure of A Low-carbon Mn-Mo-Nb Microalloyed Pipe Steel [C] . XIAO Furen, LIAO Bo, REN Deliang, International Conference on Advanced Structural Steels(ICASS 2004) vol.1; 20040414-16; Shanghai(CN) . 2004

机译：低碳Mn-Mo-Nb微合金管钢的针状铁素体显微组织
5. Effect of a thermomechanical history on the hot ductility of a niobium-titanium microalloyed steel and a low-carbon steel. [D] . Akhlaghi Esfahani, Siamak. 2001

机译：热力学历史对铌钛微合金钢和低碳钢热延展性的影响。
6. Low temperature superplasticity and thermal stability of a nanostructured low-carbon microalloyed steel [O] . J. Hu, L.-X. Du, G.-S. Sun, -1

机译：纳米结构低碳微合金钢的低温超塑性和热稳定性
7. Study of Pipeline Steels with Acicular Ferrite Microstructure and Ferrite-bainite Dual-phase Microstructure [O] . Xiurong Zuo, Zhengyue Zhou 2015

机译：针线铁氧体微观结构与铁氧体 - 贝氏体双相微观结构的管道钢研究
8. Dynamic CTOD Testing of a Low-Carbon Microalloyed Steel, [R] . Paauw, A. J., Troset, J., Thaulow, C., 1988

机译：低碳微合金钢的动态CTOD测试，

Acicular ferritic microstructure of a low-carbon Mn-Mo-Nb microalloyed pipeline steel

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