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- Title
Near‐Atomic Scale Characterization of Mn‐Gradient in Reverted Austenite in Hot‐Rolled Medium‐Mn Steels.
- Authors
Shen, Xiao; Qiao, Hanmeng; Song, Wenwen; Bleck, Wolfgang
- Abstract
Herein, the Fe–5Mn–2Al–0.1C (wt%) and micro‐alloyed Fe–5Mn–2Al–0.1C–0.1Nb–0.2V (wt%) medium Mn steels are processed by a novel flash‐austenite‐reverse‐transformation (ART) annealing. The core–shell Mn‐gradient in austenite is observed and compositionally characterized at near‐atomic scale by using atom probe tomography. Compared with the conventional ART annealing, flash‐ART process doubled the austenite fraction in both materials, based on electron backscattering diffraction measurement. The rapid austenite reversion in flash‐ART annealed MMnS is attributed to the negligible partitioning local equilibrium controlled austenite kinetics at the flash temperature. The formation of core–shell Mn‐gradient is due to the different austenite growth kinetics and interface mobilities. Microalloying elements are found to form nano‐carbides, which leads to decelerating austenite reversion because of depleted carbon content in the initial martensitic microstructure, and retarding austenite growth according to pinning effect.
- Subjects
ROLLED steel; ATOM-probe tomography; AUSTENITE; ELECTRON backscattering; MICROALLOYING; THERMODYNAMIC control
- Publication
Steel Research International, 2023, Vol 94, Issue 11, p1
- ISSN
1611-3683
- Publication type
Article
- DOI
10.1002/srin.202300145