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Volume 12 Issue 5
Oct.  2005
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Xuemin Wang, Bing Cao, Chengjia Shang, Xueyi Liu, and Xinlai He, Subgrains and boron distribution of low carbon bainitic steels, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 406-409.
Cite this article as:
Xuemin Wang, Bing Cao, Chengjia Shang, Xueyi Liu, and Xinlai He, Subgrains and boron distribution of low carbon bainitic steels, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 406-409.
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Materials

Subgrains and boron distribution of low carbon bainitic steels

  • 通讯作者:

    Xuemin Wang    E-mail: wxm@mater.ustb.edu.cn

  • The structure variation of deformed austenite during the relaxation stage after deformation at various temperatures in an Nb-B ultra low carbon bainitic steel and Fe-Ni alloy was studied by the thermo-simulation. Optical microscope and TEM were applied to analyze the microstructure after RPC (Relaxation-precipitation-controlling phase transformation technique) and the evolution of dislocation configuration. The particle tracking autoradiography (PTA) technique, revealing the distribution of boron, was employed to show the change of boron segregation after different relaxation times. The results indicate that during the relaxation stage the recovery occurs in the deformed austenite, the dislocations rearrange and subgrains form. During the subsequent cooling the boron will segregate at the boundaries of subgrains.
  • Materials

    Subgrains and boron distribution of low carbon bainitic steels

    + Author Affiliations
    • The structure variation of deformed austenite during the relaxation stage after deformation at various temperatures in an Nb-B ultra low carbon bainitic steel and Fe-Ni alloy was studied by the thermo-simulation. Optical microscope and TEM were applied to analyze the microstructure after RPC (Relaxation-precipitation-controlling phase transformation technique) and the evolution of dislocation configuration. The particle tracking autoradiography (PTA) technique, revealing the distribution of boron, was employed to show the change of boron segregation after different relaxation times. The results indicate that during the relaxation stage the recovery occurs in the deformed austenite, the dislocations rearrange and subgrains form. During the subsequent cooling the boron will segregate at the boundaries of subgrains.
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