Martensitic Transformation Behavior of Fe–Ni–C Alloys Monitored by In-situ Neutron Diffraction during Cryogenic Cooling

In-situ neutron diffraction measurements were performed on Fe-33Ni-0.004C alloy (33Ni alloy) and Fe-27Ni-0.5C alloy (27Ni-0.5C alloy) during cooling from room temperature to the cryogenic temperature (4 K) to evaluate changes in the lattice constants of austenite and martensite, and changes in the t...

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Veröffentlicht in:ISIJ International 2024/01/30, Vol.64(2), pp.192-201
Hauptverfasser: Yamashita, Takayuki, Harjo, Stefanus, Kawasaki, Takuro, Morooka, Satoshi, Gong, Wu, Fujii, Hidetoshi, Tomota, Yo
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Sprache:eng
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Zusammenfassung:In-situ neutron diffraction measurements were performed on Fe-33Ni-0.004C alloy (33Ni alloy) and Fe-27Ni-0.5C alloy (27Ni-0.5C alloy) during cooling from room temperature to the cryogenic temperature (4 K) to evaluate changes in the lattice constants of austenite and martensite, and changes in the tetragonality of martensite due to thermally induced martensitic transformation. As the martensitic transformation progressed, the lattice constants of austenite in both alloys deviated to smaller values than those predicted considering the thermal shrinkage, accompanied by an increase in the full width at half maximum of austenite. The fresh martensite formed in both alloys had a body-centered tetragonal (BCT) structure, regardless of the carbon content. The tetragonality of martensite decreased with progressive martensitic transformation during cooling in the 33Ni alloy, but was almost constant in the 27Ni-0.5C alloy. This suggests that carbon is necessary to maintain the tetragonality of martensite during cooling. The tetragonality of martensite in the 27Ni-0.5C alloy decreased during room temperature aging because of carbon mobility.
ISSN:0915-1559
1347-5460
DOI:10.2355/isijinternational.ISIJINT-2023-208