Study on martensite strengthening mechanism and phase transition
Abstract
Martensite is a type of ferrous. This paper was started with the martensite morphology and transformation process and mainly describes strengthening and toughening mechanisms of martensite with new progress of martensitic transformation, including martensitic transformation characteristics, martensitic transformation thermodynamics, martensitic crystal transformation, and so on.References
Xu Z. Martensitic transformation and martensite [M]. Beijing: Science Press, 1980.
Chen J., Li C. Solid phase transformation in metals and alloys [M]. Beijing: Metallurgical Industry Press, 1997.
Xu Z., martensitic transformation and martensite (2nd edition) [M]. Beijing: Science Press, 1999.
Liu Z. Evaluation of martensitic shear theory [J]. Journal of Inner Mongolia University of Science and Technology, 2008, 27 (4):
-300.
Liu Z., Wang H., Ren H. Review of shear theory of martensitic transformation [J]. Journal of Inner Mongolia University of
Science and Technology, 2009, 28 (2): 99-105.
Liu Z., Ji Y., Lin X. et al. Three-step shear mechanism of martensitic transformation [J]. Heat treatment of metals, 2010, 35 (2):
-6.
Liu Z., Ji Y., Wang H., at al. Four shear martensitic transformation of the shear mechanism [J]. Metal heat treatment, 2011, 36 (8):
-66.
Liu Z., Ren H., Wang H. Austenite formation and pearlite transformation [M]. Beijing: Metallurgical Industry Press, 2010.
Liu Z., Ji Y., Duan B. et al. Sub - structure and formation mechanism of slat-like martensite [J]. Journal of Materials Heat
Treatment, 2011, 32 (3): 56-62.
Liu Z., Ji Y., Ren H. Study on the mechanism of martensitic deformation nuclei [J]. Science and Technology Achievements
Management and Research, 2011, (2): 48-51.
Cheng X., Dai Q., Shao H. Solid state transformation of materials [M]. Beijing: Chemical Industry Publishing Society, 2006
Jiang Y., Yin Z., Zhu J., Li M. Development of ultra-high strength martensitic aging steel [J]. Special Steel, 2004, 25 (2): 1-5.
Zhang H., Li H. Strengthening mechanism of high strength ultra low carbon martensitic steel [J]. Shanghai Metal, 2010, 32 (2):
-45.
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