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W2020831707 endingPage "482" @default.
W2020831707 startingPage "475" @default.
W2020831707 abstract "Abstract Using ab initio simulation of manganese, aluminum and carbon impurities in fcc Fe, we demonstrated the features in their distribution, which involves repulsion of interstitial carbon atoms, formation of Mn–C pairs as well as short range Al-ordering of the D0 3 -type. We modeled the formation of stacking faults (SF) and analyzed the impurity effect on the intrinsic stacking fault energy (SFE), which controls the plasticity mechanism in austenitic alloys. First, we found that impurities have an influence on the SFE only when they are located within a few atomic layers near a stacking fault. As a result, the SFE is highly sensitive to the concentration of impurities in the vicinity of stacking fault defect. Aluminum and carbon as well as manganese for concentrations higher than 15 at.% increase the SFE, while the formation of Mn–C pairs and Al-ordering restrain the SFE growth. Short range Al-ordering strongly decreases the unstable stacking fault energy (USFE) making the formation of the stacking fault much easier, but does not affect the SFE that can explain the observed planar glide deformation before the occurrence of mechanical twinning regardless of the SFE." @default.
W2020831707 created "2016-06-24" @default.
W2020831707 creator A5037225807 @default.
W2020831707 creator A5042597890 @default.
W2020831707 creator A5056710355 @default.
W2020831707 creator A5066876837 @default.
W2020831707 date "2014-01-01" @default.
W2020831707 modified "2023-10-10" @default.
W2020831707 title "First-principles study of Mn, Al and C distribution and their effect on stacking fault energies in fcc Fe" @default.
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W2020831707 doi "https://doi.org/10.1016/j.jallcom.2013.08.089" @default.
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