Investigation of the kinetics of decomposition of undercooled nitrogenous austenite of low-alloyed steels

被引:0
|
作者
机构
[1] Milovanova, O.A.
[2] Dudarev, V.V.
[3] Babenko, N.P.
[4] Golikov, V.A.
[5] Tyapkin, Yu.D.
来源
Milovanova, O.A. | 1600年 / 70期
关键词
Iron and Steel Metallography - Martensite - Metallography - Austenite - Nitrogen;
D O I
暂无
中图分类号
学科分类号
摘要
The isothermal diagrams of low-alloyed steels with elevated nitrogen content containing 0.5-2% Cr and 3% Mn are constructed with the use of magnetometric analysis. Nitrogen is introduced into the steel by temperature and pressure treatment. It is shown that nitrogen, as an alloying element, enhances the stability of the austenite. The structural features of the decomposition products are studied and the martensitic points determined using methods of X-ray crystallographic analysis, electron microscopy and dilatometry.
引用
收藏
相关论文
共 50 条
  • [1] PRECIPITATION KINETICS OF OVERCOOLED NITROGENIZED AUSTENITE OF LOW-ALLOYED STEELS
    MILOVANOVA, OA
    DUDAREV, VV
    BABENKO, NP
    GOLIKOV, VA
    TYAPKIN, YD
    FIZIKA METALLOV I METALLOVEDENIE, 1990, (08): : 178 - 184
  • [2] Modeling of the austenite decomposition kinetics in a low-alloyed steel enriched in carbon and nitrogen
    Jeyabalan, K.
    Catteau, S. D.
    Teixeira, J.
    Geandier, G.
    Denand, B.
    Dulcy, J.
    Denis, S.
    Michel, G.
    Courteaux, M.
    MATERIALIA, 2020, 9 (09):
  • [3] The modeling of retained austenite in low-alloyed TRIP steels
    Reisner, G
    Werner, EA
    Kerschbaummayr, P
    Papst, I
    Fischer, FD
    JOM-JOURNAL OF THE MINERALS METALS & MATERIALS SOCIETY, 1997, 49 (09): : 62 - &
  • [4] The modeling of retained austenite in low-alloyed TRIP steels
    G. Reisner
    E. A. Werner
    P. Kerschbaummayr
    I. Papst
    F. D. Fischer
    JOM, 1997, 49 : 62 - 65
  • [5] Microstructural control of the austenite stability in low-alloyed TRIP steels
    Blonde, R.
    Jimenez-Melero, E.
    van Dijk, N. H.
    Bruck, E.
    Zhao, L.
    Sietsma, J.
    van der Zwaag, S.
    SOLID-SOLID PHASE TRANSFORMATIONS IN INORGANIC MATERIALS, PTS 1-2, 2011, 172-174 : 196 - +
  • [6] Austenite-to-ferrite phase transformation in low-alloyed steels
    Gamsjäger, E
    Svoboda, J
    Fischer, FD
    COMPUTATIONAL MATERIALS SCIENCE, 2005, 32 (3-4) : 360 - 369
  • [7] Simulation of Austenite Grain Growth in Low-Alloyed Steels upon Austenitization
    Gorbachev, I. I.
    Korzunova, E. I.
    Popov, V. V.
    Khabibulin, D. M.
    Urtsev, N. V.
    PHYSICS OF METALS AND METALLOGRAPHY, 2023, 124 (03): : 290 - 295
  • [8] Simulation of Austenite Grain Growth in Low-Alloyed Steels upon Austenitization
    I. I. Gorbachev
    E. I. Korzunova
    V. V. Popov
    D. M. Khabibulin
    N. V. Urtsev
    Physics of Metals and Metallography, 2023, 124 : 290 - 295
  • [9] Role of grain boundary segregation in austenite decomposition of low-alloyed steel
    Suzuki, S.
    Tanino, M.
    RECRYSTALLIZATION AND GRAIN GROWTH III, PTS 1 AND 2, 2007, 558-559 : 965 - +
  • [10] Characterization of individual retained austenite grains and their stability in low-alloyed TRIP steels
    Jimenez-Melero, E.
    van Dijk, N. H.
    Zhao, L.
    Sietsma, J.
    Offerman, S. E.
    Wright, J. P.
    van der Zwaag, S.
    ACTA MATERIALIA, 2007, 55 (20) : 6713 - 6723
12345