Effect of heat treatment on the microstructure characteristics and microhardness of a novel γ′ nickel-based superalloy by laser powder bed fusion

The fabrication of gamma prime (γ′) strengthened nickel-based superalloys by additive manufacturing (AM) techniques is of huge interest from the industrial and research community owing to their excellent high-temperature properties. The effect of post-AM-processing heat treatment on the microstructu...

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Bibliographic Details
Published in:Results in materials 2021-12, Vol.12, p.100232, Article 100232
Main Authors: Xu, Jinghao, Schulz, Fiona, Peng, Ru Lin, Hryha, Eduard, Moverare, Johan
Format: Article
Language:English
Subjects:
Gamma prime
Gamma prime γ
Heat treatment
LPBF
Nickel-based superalloy
Recrystallization
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Summary:The fabrication of gamma prime (γ′) strengthened nickel-based superalloys by additive manufacturing (AM) techniques is of huge interest from the industrial and research community owing to their excellent high-temperature properties. The effect of post-AM-processing heat treatment on the microstructural characteristics and microhardness response of a laser powder bed fused (LPBF) γ′ strengthened nickel-based superalloy, MAD542, is systematically investigated. Post-processing heat treatment shows the significant importance of tailoring the γ′ morphology. With insufficient solutioning duration time, coarse γ′ formed in the interdendritic region heterogeneously, due to the lack of chemical composition homogenization. The cooling rate from the super-solvus solutioning plays an important role in controlling the γ′ size and morphology. Spherical γ′ is formed during the air cooling while irregularly shaped γ′ formed during the furnace cooling. The following aging heat treatment further tunes the γ′ morphology and γ channel width. After two-step aging, cuboidal γ′ is developed in the air-cooled sample, while in contrast, bi-modally distributed γ′ is developed in the furnace cooled sample with fine spherical γ′ embedded in the wide γ channel between coarse irregular shaped secondary γ′. More than 90% of the grains recrystallized during solutioning treatment at the super-solvus temperature for 30 min. The rapid recrystallization kinetics are attributed to the formation of annealing twins which significantly reduced the stored energy. Microhardness responses from different heat-treated conditions were examined. •The size and morphology of γ′ precipitate in LPBF superalloy depends on the cooling rate from the super-solvus temperature.•Diffusion-controlled γ′ growth controls the size and morphology of γ′ during isothermal aging.•Rapid recrystallization is achieved thanks to promotion of twin boundaries.•Microhardness responses are dominated by the γ′ precipitation strengthening.
ISSN:2590-048X
2590-048X
DOI:10.1016/j.rinma.2021.100232