Effect of submicrocrystalline state on strength and impact toughness of low-carbon 12GBA steel

被引:0
|
作者
I. M. Safarov
A. V. Korznikov
S. N. Sergeev
S. V. Gladkovskii
E. M. Borodin
机构
[1] Russian Academy of Science,Institute of Problems of Metal Superplasticity
[2] Russian Academy of Sciences,Institute of Engineering Science, Ural Branch
来源
The Physics of Metals and Metallography | 2012年 / 113卷
关键词
submicrocrystalline materials; low carbon steel; impact toughness; brittle-ductile transition;
D O I
暂无
中图分类号
学科分类号
摘要
The effect of intense warm deformation on the structure and mechanical properties of low-carbon 12GBA steel was investigated. A submicrocrystalline (SMC) structure with an average element size of 0.3 μm was formed in the steel by isothermal overall forging. The formation of the SMC structure resulted in a sharp increase in strength by a factor of two to three in relation to the initial coarse-grained state while retaining a sufficient level of plasticity and impact toughness. After further annealing, steels exhibit an improved set of properties; i.e., as the strength decreases slightly, the plasticity increases sharply. Impact tests at low temperatures have shown the significant advantage of the SMC state of the steel over the coarse-grained state in the impact toughness. It is established that the cold resistance in the SMC state increases because the crack propagation prevails in the overall sample fracture.
引用
收藏
页码:1001 / 1006
页数:5
相关论文
共 50 条
  • [1] Effect of submicrocrystalline state on strength and impact toughness of low-carbon 12GBA steel
    Safarov, I. M.
    Korznikov, A. V.
    Sergeev, S. N.
    Gladkovskii, S. V.
    Borodin, E. M.
    PHYSICS OF METALS AND METALLOGRAPHY, 2012, 113 (10): : 1001 - 1006
  • [2] Increase in Low-Carbon Steel 12GBA Strength and Cold Resistance by a Deformation-Thermal Effect
    S. N. Sergeev
    I. M. Safarov
    R. M. Galeev
    S. V. Gladkovskii
    Metal Science and Heat Treatment, 2022, 64 : 295 - 300
  • [3] Increase in Low-Carbon Steel 12GBA Strength and Cold Resistance by a Deformation-Thermal Effect
    Sergeev, S. N.
    Safarov, I. M.
    Galeev, R. M.
    Gladkovskii, S., V
    METAL SCIENCE AND HEAT TREATMENT, 2022, 64 (5-6) : 295 - 300
  • [4] Effect of Severe Plastic Deformation on the Structure, Mechanical Properties and Fracture Behavior of Low-Carbon Steel 12GBA
    Derevyagina, L. S.
    Lemeshev, N. M.
    Korznikov, A. V.
    Gladkovsky, S. V.
    INTERNATIONAL CONFERENCE ON PHYSICAL MESOMECHANICS OF MULTILEVEL SYSTEMS 2014, 2014, 1623 : 103 - 106
  • [5] The effect of multi-axis isothermal forging on structure and properties of 12GBA low carbon steel
    Sergeev, S. N.
    Safarov, I. M.
    Korznikov, A. V.
    Galeyev, R. M.
    Gladkovsky, S. V.
    Borodin, E. M.
    LETTERS ON MATERIALS-PIS MA O MATERIALAKH, 2012, 2 (03): : 117 - 120
  • [6] Effect of rare earths on impact toughness of a low-carbon steel
    Liu, Hong-Liang
    Liu, Cheng-Jun
    Jiang, Mao-Fa
    MATERIALS & DESIGN, 2012, 33 : 306 - 312
  • [7] The fibrous ultrafine-grained structure and properties of rolled 12GBA low carbon steel
    Safarov, I. M.
    Sergeev, S. N.
    Korznikov, A. V.
    Galeyev, R. M.
    Gladkovsky, S. V.
    LETTERS ON MATERIALS-PIS MA O MATERIALAKH, 2013, 3 (01): : 3 - 6
  • [8] MEANS FOR INCREASING THE TOUGHNESS AND STRENGTH OF LOW-CARBON STEEL
    NASIBOV, AG
    POPOVA, LV
    KARCHEVSKAYA, NI
    METAL SCIENCE AND HEAT TREATMENT, 1987, 29 (7-8) : 483 - 486
  • [9] Effect of Microstructure and Segregation of Elements on the Impact Toughness of High-Strength Low-Carbon Bainitic Steel
    Du Minxian
    Peng Huaxia
    Tian Hongbin
    Sun Li
    Ou Ling
    METAL SCIENCE AND HEAT TREATMENT, 2016, 58 (3-4) : 138 - 141
  • [10] Effect of Microstructure and Segregation of Elements on the Impact Toughness of High-Strength Low-Carbon Bainitic Steel
    Du Minxian
    Peng Huaxia
    Tian Hongbin
    Sun Li
    Ou Ling
    Metal Science and Heat Treatment, 2016, 58 : 138 - 141
12345