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W2903396488 abstract "The stress–strain behavior of austenitic steels showing the TRIP/TWIP effect can be adjusted in a broad range by the addition of suitable alloying elements. Although the underlying deformation mechanisms are reasonably understood, the existing models often fail, in particular when the density of microstructure defects is high and when individual microstructure defects and features start to interact. For a micromechanical description of the material behavior involving possible interactions between different microstructure defects in austenite (dislocations, stacking faults) and newly developed phases, a detailed in situ microstructure characterization of the material under load is needed. In this study, the in situ experiments are performed using synchrotron diffraction during uniaxial compression. The materials under study are Cr–Mn–Ni steels with different Ni contents (3, 6, and 9 wt%) and thus different stacking fault energies (7.5, 16.7, and 24.3 mJ m −2 ). The in situ measurements reveal information about the martensitic phase transformations and about the development of the defect structure of austenite. The latter is concluded from the broadening and shift of diffraction lines and interpreted in terms of the squared microstrain, which is proportional to the dislocation density, and the stacking fault probability. The changes in the phase composition and defect structure are correlated with the residual elastic lattice strain." @default.
W2903396488 created "2018-12-11" @default.
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W2903396488 date "2018-11-26" @default.
W2903396488 modified "2023-10-03" @default.
W2903396488 title "Deformation Mechanisms in Metastable Austenitic TRIP/TWIP Steels under Compressive Load Studied by <i>in situ</i> Synchrotron Radiation Diffraction" @default.
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W2903396488 doi "https://doi.org/10.1002/adem.201801101" @default.
W2903396488 hasPublicationYear "2018" @default.
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