The microstructure of as-quenched 12Mn steel
SCIE
SCOPUS
- Title
- The microstructure of as-quenched 12Mn steel
- Authors
- Kinney, C.C; Yi, I; Pytlewski, K.R; Khachaturyan, A.G; Kim, N.J; J.W. Morris Jr.
- Date Issued
- 2017-02
- Publisher
- ELSEVIER
- Abstract
- Fe-12Mn steel has the unique and interesting property that, when quenched to alpha' martensite from the austenite phase, it forms an ultrafine grained microstructure that has exceptional resistance to cleavage fracture at cryogenic temperatures. The present research was undertaken to complete the characterization of this microstructure and understand why it forms and why it has such exceptional crack resistance. A combination of EBSD and TEM analysis shows that the microstructure is a dislocated lath martensite in which the laths have the Kurdjumov-Sachs relation to the parent austenite. As in other dislocated lath martensites, the prior austenite grains are divided into packets, each of which contains the 6 (of 24) KS variants that mate with the same {111}(gamma) plane. Uniquely, however, the packets are stacks of thin plates that contain all 6 KS variants. The variants within the plate are organized into 3 pair of twinned KS variants that are elongated along their {112}(alpha) twin planes, rotated 120 degrees from one another, and interwoven to form the 6-variant plate. The ultrafine grains are the laths themselves; twin boundaries between KS variants are known to provide strong barriers to cleavage crack propagation. This unusual microstructure is apparently due to the transformation path; austenite transforms to the hexagonal epsilon martensite phase before its ultimate transformation to alpha', and the 6-variant plate is the preferred element to minimize elastic energy in a microstructure created by a dominant gamma -> epsilon -> alpha' transformation path. (C) 2016 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/37558
- DOI
- 10.1016/J.ACTAMAT.2016.12.001
- ISSN
- 1359-6454
- Article Type
- Article
- Citation
- Acta Materialia, vol. 125, page. 442 - 454, 2017-02
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