In-situ observation on the growth of Widmanstatten sideplates in an Fe-C-Mn steel

The growth behavior of Widmanstatten plates as well as their lengthening rate in an Fe-0.09C-1.48Mn (weight percent) alloy were examined in-situ on the specimen surface and in bulk specimen by the traditional quench-arrest experiments. Widmanstatten plates directly emanated from austenite grain boundaries and/or from the existing ferrite allotriomorphs, i.e. through the mechanism of edge-to-face sympathetic nucleation. Simultaneously, face-to-face sympathetic nucleation could also occur on the broad face of pre-formed plates. The growth of Widmanstatten plates on the free surface did not occur at a constant lengthening rate but was accompanied by acceleration and deceleration. The average plate lengthening rate measured on the free surface was about one order of magnitude larger than that measured in bulk specimen. The former was close to the plate lengthening rate predicted by the modified Zener-Hillert model assuming paraequilibrium, while, the latter was close to the one that assumes negligible partition local equilibrium. (C) 2013 Elsevier Inc. All rights reserved.