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Volume 12 Issue 4
Aug.  2005
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Meizhen Cheng, Enlong Dong, Huibin Wu, Shanwu Yang, Xinlai He, and Huaxing Hou, Microstructure evolution during reheating of a Nb-bearing steel Ⅱ. Dislocation-precipitate interaction, J. Univ. Sci. Technol. Beijing, 12(2005), No. 4, pp. 321-325.
Cite this article as:
Meizhen Cheng, Enlong Dong, Huibin Wu, Shanwu Yang, Xinlai He, and Huaxing Hou, Microstructure evolution during reheating of a Nb-bearing steel Ⅱ. Dislocation-precipitate interaction, J. Univ. Sci. Technol. Beijing, 12(2005), No. 4, pp. 321-325.
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Materials

Microstructure evolution during reheating of a Nb-bearing steel Ⅱ. Dislocation-precipitate interaction

  • 通讯作者:

    Meizhen Cheng    E-mail: cmz0077@163.com

  • Cooled in water after the isothermal relaxation of deformed austenite for different times, a Nb-bearing microalloyed steel always exhibits the synthetic microstructure in which bainitic ferrite dominates. Strain-induced precipitates do not occur in an unre-laxed sample while they distribute outside dislocations in the sample relaxed for long time. Most of the strain induced precipitates distribute along dislocations in the sample relaxed for proper time. After bainitic transformation, the dislocations formed in the deformed austenite remain to be pinned by the precipitates so that the thermostability of the bainitic ferrite is improved. Coarsening of the precipitates accompanied by their distribution density change has caused the first hardness peak of bainite during reheating. The second hardness peak is attributed to the precipitates, which nucleate in bainite. Dislocations inside the laths getting rid of the pinning of precipitates and their polygonization play the precursor to the evolution of microstructures during reheating.
  • Materials

    Microstructure evolution during reheating of a Nb-bearing steel Ⅱ. Dislocation-precipitate interaction

    + Author Affiliations
    • Cooled in water after the isothermal relaxation of deformed austenite for different times, a Nb-bearing microalloyed steel always exhibits the synthetic microstructure in which bainitic ferrite dominates. Strain-induced precipitates do not occur in an unre-laxed sample while they distribute outside dislocations in the sample relaxed for long time. Most of the strain induced precipitates distribute along dislocations in the sample relaxed for proper time. After bainitic transformation, the dislocations formed in the deformed austenite remain to be pinned by the precipitates so that the thermostability of the bainitic ferrite is improved. Coarsening of the precipitates accompanied by their distribution density change has caused the first hardness peak of bainite during reheating. The second hardness peak is attributed to the precipitates, which nucleate in bainite. Dislocations inside the laths getting rid of the pinning of precipitates and their polygonization play the precursor to the evolution of microstructures during reheating.
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