Effect of nitrogen content on solidification behaviors and morphological characteristics of the precipitates in 55Cr17Mo1VN plastic die steel

The effect of nitrogen content on as-cast microstructure, particularly the precipitates (M7C3, M2(C, N), Fe3C) of 55Cr17Mo1VN plastic die steel was investigated. It's found that higher nitrogen content would enlarge the solidification region, and increase the area ratio of precipitates. The eut...

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Bibliographic Details
Published in:Materials characterization 2022-12, Vol.194, p.112340, Article 112340
Main Authors: Kang, Cong-peng, Liu, Fu-bin, Jiang, Zhou-hua, Zhang, Hai-bao, Ding, Shi-neng
Format: Article
Language:English
Subjects:
As-cast microstructure
M2(C,N) Carbonitride
M7C3 carbides
Nitrogen content
Solidification
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Summary:The effect of nitrogen content on as-cast microstructure, particularly the precipitates (M7C3, M2(C, N), Fe3C) of 55Cr17Mo1VN plastic die steel was investigated. It's found that higher nitrogen content would enlarge the solidification region, and increase the area ratio of precipitates. The eutectic M7C3 carbides and M2(C, N) carbonitride are mainly distributed in the interdendritic region. The eutectic M7C3 carbides mainly possess coarse (M7C3-C) and lamellar (M7C3-L) morphologies. With increasing nitrogen content from 0.16% to 0.31%, the M7C3 carbide transforms from M7C3-C to M7C3-L and promotes M2(C, N) carbonitride precipitates. Based on Bramfitt's two-dimensional lattice misfit theory, Al2O3 inclusion is the very potent heterogeneous nucleation site for the formation of M2(C, N). In contrast, M2(C, N) could be a poor heterogeneous nucleation site for M7C3. Eutectoid transformation γ-Fe → α-Fe + Fe3C occurred in 0.23% and 0.31% nitrogen content samples when solidifying, which caused the outer layer carbides in lamellar morphology. The excessive precipitates weaken the austenite stability and eventually promote martensite transformation. [Display omitted] •The formation behavior of eutectic carbides (M7C3) and carbonitride (M2(C, N)) was investigated.•The M7C3 carbides mainly possess coarse and lamellar morphologies.•With the increase of nitrogen content coarse M7C3 transformed to lamellar M7C3.•Al2O3 inclusion is the very potent nucleation catalyst for the formation of M2(C, N), while M2(C, N) is a poor potent nucleation catalyst for M7C3.•High nitrogen content promotes the Fe3C precipitates.
ISSN:1044-5803
1873-4189
DOI:10.1016/j.matchar.2022.112340