Revealing orientation-dependent martensitic transformation in a medium Mn steel by micropillar compression

In this contribution, for the first time, the effect of crystal orientation on the critical stress for martensitic transformation in a medium Mn steel is explicitly revealed by using micropillar compression experiments. Although the martensitic transformation is observed in both [100] and [110] micr...

Full description

Saved in:
Bibliographic Details
Published in:International journal of plasticity 2019-12, Vol.123, p.165-177
Main Authors: Nimaga, O.G., He, B.B., Cheng, G.J., Yen, H.W., Huang, M.X.
Format: Article
Language:English
Subjects:
Austenite
Compression tests
Crystal orientation
Crystal structure
Divergence
Intersections
Manganese steels
Martensite
Martensitic transformation
Martensitic transformations
Medium Mn steel
Micropillar
Orientation effects
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In this contribution, for the first time, the effect of crystal orientation on the critical stress for martensitic transformation in a medium Mn steel is explicitly revealed by using micropillar compression experiments. Although the martensitic transformation is observed in both [100] and [110] micropillars during compression tests, the average critical stress for martensitic transformation in [100] micropillars (∼483 MPa) is much smaller than that in [110] micropillars (∼700 MPa). The deformation twins can be found in the deformed [100] micropillars while the deformed [110] micropillars are free of deformation twins. The estimated critical stress for twin divergence in the [100] micropillars (∼465 MPa) is close to the corresponding critical stress for martensitic transformation. The theoretical critical stress for martensitic transformation in both [100] and [110] micropillars is estimated to be the same (650–750 MPa). The lower critical stress for martensitic transformations in the [100] micropillars could be ascribed to the formation of deformation twins, which is confirmed by the microstructural observation that the martensite nucleates at the intersections of deformation twin bundles. Two martensitic transformation pathways, namely twin-assisted martensitic transformation and free-standing martensitic transformation are proposed to explain the orientation dependent martensitic transformation observed in the present medium Mn steel. •Martensitic transformation in single crystal micropillars.•The critical stress for martensitic transformations in [100] micropillars is much smaller than that in [110] micropillars.•The lower critical stress in [100] micropillars could be ascribed to the formation of deformation twins.•Twin-assisted martensitic transformation vs. free-standing martensitic transformation.
ISSN:0749-6419
1879-2154
DOI:10.1016/j.ijplas.2019.07.016