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細谷 佳弘*; 松村 雄太*; 友田 陽*; 小貫 祐介*; Harjo, S.
ISIJ International, 60(9), p.2097 - 2106, 2020/09
被引用回数:5 パーセンタイル:30.69(Metallurgy & Metallurgical Engineering)In this paper, the microstructure formation during the R&P process and the deformation mechanism that would bring about the excellent strength-ductility balance are discussed based on the results obtained from the in situ neutron diffraction measurement. The results have revealed that the typical Luders-like stress-strain curve of R&P steel is caused by competitive plastic flow between austenite and martensite, and an effective transformation induced plasticity phenomenon.
細谷 佳弘*; 松村 雄太*; 友田 陽*; 小貫 祐介*; Harjo, S.
鉄と鋼, 106(3), p.154 - 164, 2020/03
被引用回数:2 パーセンタイル:12.36(Metallurgy & Metallurgical Engineering)By using a steel with standardized chemical composition and conventional manufacturing processes for flat-rolled steel strip, a 1,500 MPa class stainless steel sheet, whose product of yield strength (YS) and total elongation (El) exceeds 30,000 MPa%, was developed and its mass production was established. Besides the excellent YS-El balance, the developed steel sheet has excellent performance for not only an anti-secondary work embrittlement but also high cycle fatigue endurance. The microstructure formation during the R&P process and the deformation mechanism that would bring about the excellent strength-ductility balance are discussed based on the results obtained from the in situ neutron diffraction measurement. The results have revealed that the typical Luders-like stress-strain curve of R&P steel is caused by competitive plastic flow between austenite and martensite, and an effective transformation induced plasticity phenomenon.