Effect of Carbon and Manganese on Low-Carbon Pipe Steel Hydrogen-Induced Cracking Resistance

被引:0
|
作者
A. A. Kholodnyi
Yu. I. Matrosov
M. Yu. Matrosov
S. V. Sosin
机构
[1] Bardin Central Research Institute of Ferrous Metallurgy (TsNIIchermet),
[2] Azovstal Metallurgical Combine,undefined
[3] Metinvest Group,undefined
来源
Metallurgist | 2016年 / 60卷
关键词
low-carbon pipe steel; continuously-cast slab; thick rolled sheet; chemical composition; thermomechanical treatment; hardness; hydrogen-induced cracking (HIC);
D O I
暂无
中图分类号
学科分类号
摘要
A favorable effect is established for reducing carbon and manganese content in low-alloy pipe steels of strength categories X56–X65 on the increase in hydrogen-induced cracking (HIC) resistance of thick-rolled sheet prepared by a thermomechanical treatment regime. This effect is due to a reduction in segregation structural inhomogeneity in the axial area of sheets in the form of a solid band of high-carbon structures.
引用
收藏
页码:54 / 60
页数:6
相关论文
共 50 条
  • [31] 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
  • [32] 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
  • [33] CRACK RESISTANCE OF LOW-CARBON MARTENSITIC STEEL
    GEORGIEV, MN
    KLEINER, LM
    PILIKINA, LD
    SIMONOV, YN
    SOVIET MATERIALS SCIENCE, 1987, 23 (02): : 182 - 186
  • [34] HYDROGEN EMBRITTLEMENT OF HIGH-STRENGTH, LOW-CARBON, SILICON MANGANESE REINFORCING STEEL
    CHERNENKO, VT
    SIDORENKO, OG
    FEDOROVA, IP
    MIRONOV, VA
    DEMCHENKO, EM
    STEEL IN THE USSR, 1988, 18 (06): : 279 - 281
  • [35] EFFECT OF GAS BLOWING METHOD IN TUNDISH ON INCLUSION REMOVAL FOR HYDROGEN-INDUCED CRACKING RESISTANCE STEEL
    NAKAJIMA, K
    KAWASAKI, M
    TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 1994, 80 (08): : 611 - 616
  • [36] Microstructural characteristics and resistance of carbon-manganese steels against hydrogen induced cracking
    Sojka, J
    Betáková, P
    Schindler, I
    Hyspecká, L
    ADVANCES IN MECHANICAL BEHAVIOUR, PLASTICITY AND DAMAGE, VOLS 1 AND 2, PROCEEDINGS, 2000, : 1225 - 1230
  • [37] Role of crystallographic texture in hydrogen-induced cracking of low carbon steels for sour service piping
    Venegas, V.
    Caleyo, F.
    Hallen, J. M.
    Baudin, T.
    Penelle, R.
    METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 2007, 38A (05): : 1022 - 1031
  • [38] EFFECT OF TRANSFORMATION SUBSTRUCTURE ON MECHANICAL PROPERTIES OF A LOW-CARBON MANGANESE MARTENSITIC STEEL
    MARTENSSON, H
    METALLURGICAL TRANSACTIONS, 1971, 2 (12): : 3490 - +
  • [39] Role of Crystallographic Texture in Hydrogen-Induced Cracking of Low Carbon Steels for Sour Service Piping
    V. Venegas
    F. Caleyo
    J.M. Hallen
    T. Baudin
    R. Penelle
    Metallurgical and Materials Transactions A, 2007, 38 : 1022 - 1031
  • [40] Effect of Silicon and Manganese on Mechanical Properties of Low-Carbon Plain TRIP Steel
    LI Zhuang~(1
    2. Institute of Aeronautical Engineering
    3. Jiangxi Normal University
    Journal of Iron and Steel Research(International), 2005, (03) : 51 - 55
12345