Lengthening kinetics of ferrite plates in high-strength low-carbon low alloy steel

被引:23
|
作者
Wan, X. L. [1 ]
Wei, R. [1 ]
Cheng, L. [2 ]
Enomoto, M. [2 ]
Adachi, Y. [3 ]
机构
[1] Wuhan Univ Sci & Technol, Int Res Inst Steel Technol, Wuhan 430081, Peoples R China
[2] Ibaraki Univ, Dept Mat Sci & Engn, Hitachi, Ibaraki 3168511, Japan
[3] Kagoshima Univ, Grad Sch Sci & Engn, Dept Mech Engn, Kagoshima 8908580, Japan
来源
JOURNAL OF MATERIALS SCIENCE | 2013年 / 48卷 / 12期
关键词
FE-C; PHASE-TRANSFORMATIONS; PROEUTECTOID FERRITE; GRAIN-BOUNDARIES; GROWTH-KINETICS; AUSTENITE; BAINITE; DIFFUSION; INTERFACE; TRANSITIONS;
D O I
10.1007/s10853-013-7250-8
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The lengthening of ferrite plates in a high-strength low carbon low alloy steel, which contained 1.62 mass% Mn and small amounts of Si, Mo, Ni, Cr, and Nb, was observed in situ under high-temperature confocal laser scanning microscopy. Applying the analysis by Speich and Cohen to the growth of a lath-type plate, it was found that the measured lengthening rates are likely to fall between those calculated assuming para- and NPLE modes from the semiempirical equation proposed by Hillert, while they scattered widely presumably because the plate morphology was not a lenticular disk. In the temperature range of measurement, solute drag due to alloying element segregation at the boundary between plate tip and the matrix may not operate to an appreciable extent. The retardation of lengthening from that calculated under paraequilibrium could occur by intrinsic friction of alpha/gamma boundary.
引用
收藏
页码:4345 / 4355
页数:11
相关论文
共 50 条
  • [1] Lengthening kinetics of ferrite plates in high-strength low-carbon low alloy steel
    X. L. Wan
    R. Wei
    L. Cheng
    M. Enomoto
    Y. Adachi
    Journal of Materials Science, 2013, 48 : 4345 - 4355
  • [2] FLAKES IN LOW-CARBON HIGH-STRENGTH LOW-ALLOY STEEL
    NONG, G
    YAO, WX
    CAO, YZ
    MATERIALS CHARACTERIZATION, 1992, 28 (01) : 15 - 21
  • [3] 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
  • [4] CRYSTALLOGRAPHY OF BAINITE IN A LOW-CARBON LOW-ALLOY HIGH-STRENGTH STEEL
    OHMORI, Y
    TRANSACTIONS OF THE IRON AND STEEL INSTITUTE OF JAPAN, 1973, 13 (01) : 56 - 62
  • [5] Structural inheritance and intercrystalline brittleness in high-strength low-carbon alloy steel
    Shchastlivtsev, V.M., 1600, (80):
  • [6] Phenomenological Model of Austenite Decomposition Kinetics in Low-Carbon Low-Alloy High-Strength Steels
    Urtsev V.N.
    Shmakov A.V.
    Urtsev N.V.
    Mokshin E.D.
    Khabibulin D.M.
    Degtyarev V.N.
    Stekanov P.A.
    Gornostyrev Y.N.
    Lobanov M.L.
    Platov S.I.
    Maslennikov K.B.
    Steel in Translation, 2020, 50 (07) : 496 - 500
  • [7] CONTINUOUS COOLING TRANSFORMATIONS AND MICROSTRUCTURES IN A LOW-CARBON, HIGH-STRENGTH LOW-ALLOY PLATE STEEL
    THOMPSON, SW
    COLVIN, DJ
    KRAUSS, G
    METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 1990, 21 (06): : 1493 - 1507
  • [8] Kinetics of ferrite to Widmanstatten austenite transformation in a high-strength low-alloy steel revisited
    Guo, ZL
    Sha, W
    ZEITSCHRIFT FUR METALLKUNDE, 2004, 95 (08): : 718 - 723
  • [9] Growth behavior and kinetics of austenite grain in low-carbon high-strength steel with copper
    Meng, Fanyun
    Wang, Jiaji
    Guo, Jing
    Fu, Kuijun
    Zhao, Ming
    Wang, Zhongjun
    Xu, Zhen
    MATERIALS RESEARCH EXPRESS, 2021, 8 (09)
  • [10] Production of high-strength sheet of low-carbon martensitic steel
    Klejner, L.M.
    Druzhinin, Yu.V.
    Rybkin, A.N.
    Tolchina, I.V.
    Stal', 1995, (05): : 72 - 73
12345