Pre-martensite and bainite reactions: A thermal stability study
2025
Królicka, Aleksandra | Jiménez, José Antonio | García Caballero, Francisca | National Science Centre (Poland) | European Commission
The comparative analysis of two ways to achieve ultra-fine bainitic steels considering isothermal heat treatment above and below martensite start (M) temperature was formulated. Although the presence of pre-martensite below the M temperature accelerates the nucleation time of the bainitic transformation, the time to finish the transformation is longer (∼11.5 h) compared to the treatment above M (∼5 h). A qualitative and quantitative analysis of the morphology of the bainitic structure demonstrated that there are no significant differences in the thickness of the bainitic ferrite laths in both cases. However, a clear refinement of the retained austenite blocks of the steel treated below M was observed. Moreover, TEM and STEM/EDS studies revealed precipitation processes associated with the decomposition of the metastable bainitic and bainitic-martensitic structures during the tempering. It was shown that both heat treatment routes lead to secondary hardening during the tempering at 550 °C. At lower tempering temperatures, the bainitic matrix obtained above M was characterized by higher thermal stability, while the presence of pre-martensite in the steel treated below M has greater effectiveness in the secondary hardening effect at higher tempering temperatures and therefore in thermal stability of bainite at the high-temperature tempering range. These results provide a new perspective for designing heat treatment processes for advanced bainitic steels in applications subjected to operation at elevated temperatures.
Show more [+] Less [-]This work was supported by the National Science Centre Poland (OPUS Project, No. 2023/51/B/ST8/01393, title: “INtermetallics STrengthening in nanocrystalline BAINitic steels considering the additive manufacturing method (INSTaBAIN)”). F.G. Caballero would like to thanks the European Commission for funding her investigations on bainite (RFCS-02–2022-RPJ Project: 101112398 — NanoWinTur).
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