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• W4289732040 abstract "• Relation between “Pre-straining, microstructure evolution, and fatigue performance” of the Fe-0.1C-5Mn medium manganese steel is established. • Blocky retained austenite partially transforms into segment martensite with pre-straining, and is subsequently split into thin-film austenite. It not only strengthens the steel, but also maintains enough plastic deformation capacity for the material. • Remained untransformed thin-film austenite refines the microstructure, delays the fatigue crack initiation, and decreases its propagation rate, and further improves the low-cycle fatigue performance. The low-cycle fatigue (LCF) behavior of Fe–0.1C–5Mn medium manganese transformation-induced plasticity steel in its as-received (AR: 0% pre-strained) and 10%, 15%, and 20% pre-strained conditions was analyzed. Microstructural evolution during pre-straining and cyclic loading was characterized by X-ray diffraction, electron backscatter diffraction, and transmission electron microscopy. The LCF properties of the steel were observed to gradually improve as pre-straining was increased. Moreover, during pre-straining, the blocky austenite grains were successively split into thin film-like austenite by fresh lath martensite. It refined the microstructure, delayed fatigue crack initiation, prevented crack growth, and resulted in notable improvements in the LCF performance." @default.
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• W4289732040 date "2022-12-01" @default.
• W4289732040 modified "2023-10-11" @default.
• W4289732040 title "Influence of pre-straining on the low-cycle fatigue performance of Fe–0.1C–5Mn medium manganese steel" @default.
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• W4289732040 doi "https://doi.org/10.1016/j.ijfatigue.2022.107186" @default.
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