Characterization and Analysis of Non-Metallic Inclusions in Low-Carbon Fe-Mn-Si-Al TWIP Steels

A characterization of non‐metallic inclusions in Fe–Mn–Si–Al twinning‐induced plasticity (TWIP) steels during argon oxygen decarburization–electroslag remelting–forging (AOD–ESR–forging) process has been performed. The two main kinds of inclusions found in TWIP–AOD ingots are single Al(O)N and MnS(S...

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Bibliographic Details
Published in:Steel research international 2016-12, Vol.87 (12), p.1723-1732
Main Authors: Liu, Hongbo, Liu, Jianhua, Michelic, Susanne K., Shen, Shaobo, Su, Xiaofeng, Wu, Bowei, Ding, Hao
Format: Article
Language:English
Subjects:
AOD
Carbon steel
Chemical precipitation
Decarburizing
Dissolution
ESR
Growth rate
Inclusions
Ingots
Kinetics
Liquids
Nonmetallic inclusions
Steels
thermodynamics
TWIP steels
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Summary:A characterization of non‐metallic inclusions in Fe–Mn–Si–Al twinning‐induced plasticity (TWIP) steels during argon oxygen decarburization–electroslag remelting–forging (AOD–ESR–forging) process has been performed. The two main kinds of inclusions found in TWIP–AOD ingots are single Al(O)N and MnS(Se)–Al(O)N aggregates. After the ESR process, Al(O)N and MnS(Se) inclusions in all size ranges significantly decrease while other kinds of inclusions show only minor changes. In the present study, the precipitation, growth, and dissolution of AlN and MnS inclusions have been analyzed by thermodynamics and kinetics. It is found that AlN inclusions in TWIP steels can already precipitate in the liquid. Furthermore, AlN inclusions precipitated in the liquid TWIP steels can act as the heterogeneous nuclei of MnS inclusions, and thus forming Al(O)N and MnS(Se) · Al(O)N clusters. After ESR refining, the precipitation temperature of AlN and MnS inclusions will be significantly decreased, and AlN inclusions cannot be formed in the liquid TWIP steels in particular. The kinetic analysis show that the growth of AlN inclusions will be difficult during the ESR process, because their growth rate decreases significantly, while the dissolution rate increases. The present work mainly characterizes the non‐metallic inclusions in low‐carbon Fe–Mn–Si–Al TWIP steels produced by argon oxygen decarburization–electroslag remelting (AOD‐ESR)‐forging method. Single Al(O)N and MnS(Se)–Al(O)N aggregates are two main kinds of inclusions in TWIP–AOD ingots. The formation, growth, and dissolution of AlN and MnS inclusions formed in steel before and after ESR process are analyzed based on thermodynamics and kinetics.
ISSN:1611-3683
1869-344X
DOI:10.1002/srin.201600131