Study of Low-Carbon Pipe Steel Strain Ageing

被引:0
作者
I. Yu. Pyshmintsev
M. A. Smirnov
O. V. Varnak
A. N. Mal’tseva
Yu. N. Goikhenberg
机构
[1] Russian Research Institute of the Pipe Industry (RosNITI),
[2] South-Ural State University,undefined
来源
Metallurgist | 2018年 / 61卷
关键词
low-carbon pipe steel; strain aging; ferrite; bainite; mechanical properties; austenitizing temperature; hot plastic deformation;
D O I
暂无
中图分类号
学科分类号
摘要
Strain aging of pipe steels 06G2FB and 07G2MFB with ferrite-pearlite and ferrite-bainite structures is investigated. It is established that a ferrite-bainite structure is more inclined towards strain aging than a ferrite-pearlite structure. The tendency towards strain aging of steel with a ferrite-bainite structure increases with increasing austenitizing temperature. During hot plastic deformation there is development of recrystallization and the tendency towards strain aging decreases.
引用
收藏
页码:1093 / 1101
页数:8
相关论文
共 50 条
[41]   Thermal strengthening of the low-carbon steel strip [J].
Goryany, V ;
Mamuzic, I ;
Hlyntseva, T ;
Radsinsky, V .
METALURGIJA, 2003, 42 (03) :193-196
[42]   Comparative study of the role of niobium in low-carbon ferritic and bainitic steels [J].
Cai, Feng ;
Zhou, Mingxing ;
Tian, Junyu ;
Xu, Guang .
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2022, 851
[43]   Effect of Starting Microstructures on the Reverse Transformation Kinetics in Low-Carbon Steel [J].
Hou, Junhua ;
He, Binbin .
METALS, 2020, 10 (12) :1-12
[44]   Structure and mechanical properties of low-carbon steel for oil and gas pipelines [J].
Veselov I.N. ;
Pyshmintsev I.Y. ;
Laev K.A. ;
Zhukova S.Y. .
Steel in Translation, 2011, 41 (2) :165-170
[45]   Enhanced Thermal Stability of the Low-Carbon Ultrafine Grain Steel with Nanoprecipitates [J].
Zhang, Qingxiao ;
Yuan, Qing ;
Wang, Zhoutou ;
Qiao, Wenwei ;
Xu, Guang .
STEEL RESEARCH INTERNATIONAL, 2022, 93 (01)
[46]   Annealing Process Optimization of High Frequency Longitudinal Resistance Welded Low-Carbon Ferritic Stainless Steel Pipe [J].
Shao Yi ;
Li Yanmo ;
Liu Chenxi ;
Yan Zesheng ;
Liu Yongchang .
ACTA METALLURGICA SINICA, 2019, 55 (11) :1367-1378
[47]   Study on monotonic and cyclic properties of WAAM low-carbon steel thick plate [J].
Zheng, Baofeng ;
Yang, Jianjun ;
Zhang, Yi ;
Zhang, Sibo ;
Shu, Ganping .
STRUCTURES, 2024, 67
[48]   Nanoindentation Study of Borided Low-Carbon 16MnCr5 Steel [J].
Calik, A. ;
Yeniay, N. ;
Ucar, N. .
METAL SCIENCE AND HEAT TREATMENT, 2024, 65 (11-12) :758-761
[49]   Significant Hetero-Deformation Induced Strain Hardening in a Dual-Phase Low-Carbon Steel [J].
Liu, Yi ;
Gao, Bo ;
Yang, Ming ;
Xiao, Lirong ;
Wang, Jiaxin ;
Ma, Jiaxin ;
Chen, Xiangjie ;
Zhou, Hao ;
Zhu, Yuntian .
JOM, 2023, 75 (05) :1383-1392
[50]   Effect of nano-precipitates and TRIP effect on strain hardening behavior of low-carbon nanostructured steel [J].
Yang, Xiaocong ;
Li, Chengning ;
Ba, Lingzhi ;
Wang, Ce ;
Ju, Yuezhang ;
Wang, Ying ;
Di, Xinjie .
CONSTRUCTION AND BUILDING MATERIALS, 2025, 472
12345