Crystallographical Analysis on Martensite Transformation and Martensitic Morphology

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著者

    • NANJU Gu
    • Department of Materials Science Engineering, Hebei University of Technology
    • XIAOYAN Song
    • Department of Materials Science Engineering, Hebei University of Technology
    • ZHIHONG Ma
    • Department of Materials Science Engineering, Hebei University of Technology
    • RUIXIANG Wang
    • Department of Materials Science Engineering, Hebei University of Technology
    • FUXING Yin
    • Department of Materials Science Engineering, Hebei University of Technology

抄録

The strain tensor and displacement vector associated with lattice deformation were introduced to discuss the effect of self-accommodation and plastic accommodation in martensitic transformation and the crystallographic models for {557}<sub>f</sub>, {225}<sub>f</sub> and {31015}<sub>f</sub> martensite were proposed, along with their experimental verification. According to the present work, the authors suggest that the invariant habit plane is formed by the self-accommodation between different martensite variants with the internal twin substructure, when the strength of parent phase is so high that the plastic accommodation is difficult to occur. However, when the strength of parent phase is low enough for the plastic accommodation to occur, the dislocation substructure in the martensite may be produced, and the invariant habit plane is difficult to form, so the {225}<sub>f</sub> and {557}<sub>f</sub> habit planes are difficult to be explained by phenomenological crystallographical theory. <br>Furthermore, the authors suggest that the martensitic morphology depends on the competition between self-accommodation and plastic accommodation, and also depends on the factors of not only the strength but also the fine structure of the parent phase. For instance, when the density of crystal defects is high, the dislocation rather than twinned martensite will be introduced in spite of the very high strength of the parent phase.

収録刊行物

  • ISIJ international  

    ISIJ international 37(9), 914-920, 1997-09-15 

    The Iron and Steel Institute of Japan

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