Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8154786 | Journal of Magnetism and Magnetic Materials | 2016 | 19 Pages |
Abstract
Direct γâαⲠmartensitic transformation during cold rolling deformation was investigated for a high-Mn non-magnetic steel. Its influence on magnetic property was also analyzed. The magnetization under rolling reduction less than 50% almost presents a linear increase with the applied magnetic field. With deformation up to 73% and 93% thickness reductions, strain induced αâ²-martensite transformation starts to occur, causing the steel to be slightly magnetized. The αâ²-martensite prefers to nucleate directly at either microband-microband or microband-twin intersections without participation of intermediate ε-martensite. The volume fraction of αâ²-martensite is estimated as 0.070% and 0.17%, respectively, based on the magnetic hysteresis loops. Such a small fraction of ferromagnetic αâ²-martensite shows little influence on the magnetic induction intensity and low relative permeability.
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Condensed Matter Physics
Authors
Biao Ma, Changsheng Li, Yahui Han, Jikai Wang,