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Temperature Dependence of Deformation Behaviors in High Manganese Austenitic Steel for Cryogenic Applications

Jun Chen, Shuang Li, Jia-kuan Ren, Zhenyu Liu

2021Materials15 citationsDOIOpen Access PDF

Abstract

The deformation structure and its contribution to strain hardening of a high manganese austenitic steel were investigated after tensile deformation at 298 K, 77 K and 4 K by means of electron backscatter diffraction and transmission electron microscopy, exhibiting a strong dependence of strain hardening and deformation structure on deformation temperature. It was demonstrated that sufficient twinning indeed provides a high and stable strain hardening capacity, leading to a simultaneous increase in strength and ductility at 77 K compared with the tensile deformation at 298 K. Moreover, although the SFE of the steel is ~34.4 mJ/m2 at 4 K, sufficient twinning was not observed, indicating that the mechanical twinning is hard to activate at 4 K. However, numerous planar dislocation arrays and microbands can be observed, and these substructures may be a reason for multi-peak strain hardening behaviors at 4 K. They can also provide certain strain hardening capacity, and a relatively high total elongation of ~48% can be obtained at 4 K. In addition, it was found that the yield strength (YS) and ultimate tensile strength (UTS) linearly increases with the lowering of the deformation temperature from 298 K to 4 K, and the increment in YS and UTS was estimated to be 2.13 and 2.43 MPa per 1 K reduction, respectively.

Topics & Concepts

Materials scienceCrystal twinningUltimate tensile strengthStrain hardening exponentAusteniteHardening (computing)Deformation (meteorology)Composite materialDeformation mechanismElectron backscatter diffractionAustenitic stainless steelWork hardeningMetallurgyMicrostructureCorrosionLayer (electronics)Microstructure and Mechanical Properties of SteelsMetal Alloys Wear and PropertiesHigh Temperature Alloys and Creep
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