MICROSTRUCTURE AND PROPERTIES OF A C-Mn STEEL SUBJECTED TO HEAVY PLASTIC DEFORMATION

K. MUSZKA; S. DYMEK; J. MAJTA; P HODGSON

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MICROSTRUCTURE AND PROPERTIES OF A C-Mn STEEL SUBJECTED TO HEAVY PLASTIC DEFORMATION

机译：C-Mn钢塑性变形后的组织与性能

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In the present paper an effect of severe plastic deformation (SPD) on the microstructural evolution and properties of a plain C-Mn steel was investigated. The SPD was accomplished by the MaxStrain system which deforms material along two perpendicular axes while the deformation along the third axis is fully constrained. The applied amounts of true strains were 5 and 20 in total. Deformation was conducted at room and 500℃ temperatures. Some samples deformed at room temperature were subsequently annealed at 500℃. A microstructural analysis by SEM/EBSD was used for recognition the low- and high-angle grain boundaries. It was found that the collective effect of severe plastic deformation (true strain of 20) and further annealing promotes the formation of high-angle grain boundaries and uniform fine grained microstructure. The refinement of ferrite microstructure results in a significant increase in strength and hardness.

机译：本文研究了严重塑性变形（SPD）对普通C-Mn钢的组织演变和性能的影响。 SPD由MaxStrain系统完成，该系统使材料沿两个垂直轴变形，而沿第三轴的变形被完全约束。真实菌株的施加量总计为5和20。在室温和500℃下进行变形。随后将一些在室温下变形的样品在500℃下退火。 SEM / EBSD的显微组织分析被用于识别低角度和高角度晶界。发现严重的塑性变形（真实应变为20）和进一步退火的共同作用促进了高角度晶界的形成和均匀的细晶粒组织。铁素体显微组织的细化导致强度和硬度的显着提高。

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《Archives of Metallurgy and Materials》 |2010年第3期|共6页
作者
K. MUSZKA; S. DYMEK; J. MAJTA; P HODGSON;
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正文语种 eng
中图分类冶金工业;
关键词
C-Mn steel; grain refinement; severe plastic deformation;

机译：碳锰钢;晶粒细化;严重塑性变形;

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专利

1. MICROSTRUCTURE AND PROPERTIES OF A C-Mn STEEL SUBJECTED TO HEAVY PLASTIC DEFORMATION [J] . K. MUSZKA, S. DYMEK, J. MAJTA, Archives of Metallurgy and Materials . 2010,第3期

机译：C-Mn钢塑性变形后的组织与性能
2. MICROSTRUCTURE AND MECHANICAL PROPERTIES OF MEDIUM-CARBON STEEL SUBJECTED TO SEVERE PLASTIC DEFORMATION [J] . M. V. Karavaeva, S. K. Nurieva, N. G Zaripov Metal Science and Heat Treatment . 2012,第3a4期

机译：中碳钢严重塑性变形后的组织和力学性能
3. Effect of carbon content on formation of bimodal microstructure and mechanical properties of low-carbon steels subjected to heavy-reduction single-pass hot/warm deformation [J] . Hyung-Won Park, Jun Yanagimoto Materials Science and Engineering . 2014,第juna23期

机译：碳含量对低碳钢热/温变形大变形下双峰组织和力学性能的影响
4. THE EFFECT OF Mn ON THE MICROSTRUCTURE AND MECHANICAL PROPERTIES AFTER HEAVY WARM ROLLING OF C-Mn STEEL [C] . Rongjie Song, Radko Kaspar, Dirk Ponge, TMS(The Minerals, Metals amp; Materials Society) Annual Meeting; 20040314-20040318; Charlotte,NC; US . 2004

机译：Mn对C-Mn钢热轧后显微组织和力学性能的影响
5. Investigation of the influence of severe plastic deformation on the microstructure and mechanical properties of aluminum-7136 alloy. [D] . Duan, Zhichao. 2009

机译：研究严重塑性变形对7136铝合金组织和力学性能的影响。
6. Effect of Different Isothermal Time on Microstructure and Mechanical Property of the Low-Carbon Steel Treated by Dual-Stable C-Mn Partitioning Process [O] . Cainian Jing, Xiaoyun Ding, Daomin Ye, 2020

机译：等温时间对双稳态碳锰分配工艺处理低碳钢组织和力学性能的影响
7. Effect of carbon content on formation of bimodal microstructure and mechanical properties of low-carbon steels subjected to heavy-reduction single-pass hot/warm deformation [O] . Hyung-Won Park, Jun Yanagimoto 2014

机译：碳含量对重度单通热/温度变形的低碳钢形成双模微观结构的形成和力学性能
8. Microstructure, Plastic Deformation and Mechanical Properties of MechanicallyAlloyed NiAl and NiAl Based Alloys [R] . Dollar, M., Nash, P., Dymek, S., 1991

机译：机械合金化Nial和Nial基合金的组织，塑性变形和力学性能

MICROSTRUCTURE AND PROPERTIES OF A C-Mn STEEL SUBJECTED TO HEAVY PLASTIC DEFORMATION

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