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
  • [31] Microstructure in low-carbon low-alloy high-strength pipe steel
    M. Yu. Matrosov
    I. V. Lyasotskii
    A. A. Kichkina
    D. L. D’yakonov
    A. A. Efimov
    Steel in Translation, 2012, 42 (1) : 84 - 93
  • [32] Effect of Alloying With Molybdenum and Chromium on Low-Carbon Pipe Steel Structure and Properties
    Tkachuk, M. A.
    Golovin, S. V.
    Efron, L. I.
    Ganoshenko, I. V.
    METALLURGIST, 2020, 63 (9-10) : 1043 - 1053
  • [33] LOW-CARBON MN-MO-CB STEEL FOR GAS TRANSMISSION PIPE
    MIHELICH, JL
    CRYDERMA.RL
    MECHANICAL ENGINEERING, 1972, 94 (11) : 68 - 68
  • [34] Effect of Alloying With Molybdenum and Chromium on Low-Carbon Pipe Steel Structure and Properties
    M. A. Tkachuk
    S. V. Golovin
    L. I. Éfron
    I. V. Ganoshenko
    Metallurgist, 2020, 63 : 1043 - 1053
  • [35] Localized Corrosion Occurrence in Low-Carbon Steel Pipe Caused by Microstructural Inhomogeneity
    Lee, Yun-Ho
    Kim, Geon-Il
    Kim, Kyung-Min
    Ko, Sang-Jin
    Kim, Woo-Cheol
    Kim, Jung-Gu
    MATERIALS, 2022, 15 (05)
  • [36] Effect of Cr and Mo on strain ageing behaviour of low carbon steel
    Pereloma, E. V.
    Bata, V.
    Scott, R. I.
    Smith, R. M.
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2010, 527 (10-11): : 2538 - 2546
  • [37] STRUCTURAL EFFECTS DURING STRAIN PATH CHANGES FOR LOW-CARBON STEEL
    SCHMITT, JH
    RAPHANEL, JL
    BAUDELET, B
    JOURNAL OF METALS, 1985, 37 (08): : A59 - A59
  • [38] Improving the Mechanical Properties of Low-Carbon Steel by In Situ Strain Aging
    Gu, Gang Hee
    Seo, Min Hong
    Kim, Hyoung Seop
    ADVANCED ENGINEERING MATERIALS, 2023, 25 (24)
  • [39] Cracking instabilities in a low-carbon steel susceptible to dynamic strain aging
    Mohan, R
    Marschall, C
    ACTA MATERIALIA, 1998, 46 (06) : 1933 - 1948
  • [40] Effect of Carbon and Manganese on Low-Carbon Pipe Steel Hydrogen-Induced Cracking Resistance
    Kholodnyi, A. A.
    Matrosov, Yu. I.
    Matrosov, M. Yu.
    Sosin, S. V.
    METALLURGIST, 2016, 60 (1-2) : 54 - 60
12345