Effect of Rolling Deformation on Grain Refinement of F-M Dual Phase Steel 0.05C-2.8Mn-4.2Ni-2Al-l. 2Mo-l. 9Cu

马才女; 高雪云; 呼陟宇; 翟亭亭; 李瑞红; 王海燕; 薛春江

您当前的位置：

首页 >

文章列表页 >

Effect of Rolling Deformation on Grain Refinement of F-M Dual Phase Steel 0.05C-2.8Mn-4.2Ni-2Al-l. 2Mo-l. 9Cu

更新时间：2026-01-21

- Effect of Rolling Deformation on Grain Refinement of F-M Dual Phase Steel 0.05C-2.8Mn-4.2Ni-2Al-l. 2Mo-l. 9Cu
- Special Steel Vol. 43, Issue 3, Pages: 91-94(2022)
- 作者机构：
  
  1. 内蒙古科技大学材料与冶金学院,包头,014010
  2. 内蒙古自治区新金属材料重点实验室,包头,014010
  3. 内蒙古科技大学工程训练中心,包头,014010
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：18 November 2021，
  
  Online First：22 June 2022，
  
  Published：22 June 2022
- 稿件说明：
移动端阅览
马才女, 高雪云, 呼陟宇, et al. Effect of Rolling Deformation on Grain Refinement of F-M Dual Phase Steel 0.05C-2.8Mn-4.2Ni-2Al-l. 2Mo-l. 9Cu[J]. Special Steel, 2022, 43(3): 91-94.
DOI：

马才女, 高雪云, 呼陟宇, et al. Effect of Rolling Deformation on Grain Refinement of F-M Dual Phase Steel 0.05C-2.8Mn-4.2Ni-2Al-l. 2Mo-l. 9Cu[J]. Special Steel, 2022, 43(3): 91-94. DOI：

摘要

借助EBSD场发射扫描电子显微镜

研究了轧制变形及热处理后的铁素体/马氏体双相钢0.05C-2.8Mn4.2Ni-2Al-1.2Mo-1.9Cu显微组织演变及力学性能。结果表明

经900℃30%+780℃75%变形

500℃退火的F-M钢晶粒尺寸0.97μm

屈服、抗拉强度和延伸率分别为876 MPa

976 MPa和15.2%

经900℃30%+780℃50%变形

500℃退火的F-M钢晶粒尺寸1.54μm

屈服、抗拉强度和延伸率分别为801 MPa

895 MPa和19.4%。由轧制变形导致的晶粒细化、小角度晶界增多

是提高实验钢强度的主要原因。然而

较大的轧制变形量也使过多的小角度晶界阻碍位错运动

从而导致实验钢在塑性变形过程中

延展性略差。

Abstract

By field emission scanning electron microscope equipped with an EBSD imaging system the structure and properties of ferritic/martensitic dual-phase steel 0. 05C-2. 8Mn-4. 2Ni-2AJ-l. 2Mo-l. 9Cu after rolling deformation and heat treatment are studied. The results show that by rolled with 900 °C. 30% +780 °C 75% deforming and 500 °C. annealed

of F- M steel the grain size 0.97μm

yield tensile strength and elongation are respectively 876 MPa

976 MPa and 15.2%

and by rolled with 900 °C 30% +780 °C 50% deforming and 500 °C annealed

of F-M steel the grain size 1.54 μm

yield、 tensile strength and elongation are respectively 801 MPa

895 MPa and 19. 4%. Hie grain refinement and the increase of small-angle grain boundaries caused by rolling deformation are the main reasons for improving the strength of the experimental steel. However

the large rolling deformation also makes too many small-angle grain boundaries hinder the movement of dislocations

which leads to more difficult deformation arid slightly poorer ductility in the plastic deformation process of the experimental steel.

关键词

Keywords

references

Views

下载量

CSCD

CNKI被引量

Alert me when the article has been cited

提交

Tools

Publicity Resources

No data

Related Author

No data

Related Institution

No data

⁰