Abstract
The effect of austenite‐reverted transformation (ART) annealing process on the chemical and microstructural properties of medium Mn steel (7 wt% Mn) is evidenced by a combination of electron probe micro‐analysis, electron back‐scattering diffraction, and scanning transmission electron microscopy. Hot‐rolled medium Mn steels with distinct dual‐phase austenite/martensite microstructures and identical bulk composition can be obtained via direct austenite reverted transformation (D‐ART) as compared to a reaustenized quenched (RAQ) + ART route. The different annealing sequences applied to the steel have an effect on the fraction of austenite, its morphology, chemical composition, and distribution. The D‐ART route produces a core–shell structure of Mn‐rich shell and Mn‐lean core inside the austenite grains, while the RAQ + ART route did not. Such systematic characterizations using a combination of different microscale and nanoscale techniques are essential as chemistry and morphological differences at the individual grain level provide a key understanding to the microstructure–property relationship of such steels.
Published Version
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