Effect of N on hot deformation behavior of high-Mn austenitic steel

Effect of N on hot deformation behavior of high-Mn austenitic steel

The present study dealt with the hot compression deformation behavior of Fe−18.5Mn–7Cr−0.6C and Fe−18.5Mn–7Cr−0.6C−0.21 N high-Mn austenitic steels within a temperature range of 900–1200 °C, a strain rate range of 0.01–5 s−1, and a true strain of 0.7. The accurate constitutive equations were establi...

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Bibliographic Details
Published in:Journal of materials research and technology Vol. 27; pp. 4345 - 4355
Main Authors: Hao, Xiaohong, Sun, Xiaowen, Zhao, Ting, Shen, Shenghan, Wang, Yuefeng, Wang, Tiansheng
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2023
Elsevier
Subjects:
Constitutive equation
Flow behavior
High-Mn austenitic steel
Hot deformation
Microstructure
Nitrogen
Hot deformation
Constitutive equation
High-Mn austenitic steel
Flow behavior
Nitrogen
Microstructure
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Summary:The present study dealt with the hot compression deformation behavior of Fe−18.5Mn–7Cr−0.6C and Fe−18.5Mn–7Cr−0.6C−0.21 N high-Mn austenitic steels within a temperature range of 900–1200 °C, a strain rate range of 0.01–5 s−1, and a true strain of 0.7. The accurate constitutive equations were established according to their flow curves, and the deformation microstructures were also analyzed. The results revealed that the dominant softening mechanism for the two test steels without substantial peak stress (higher Zenger-Holloman parameter values) could also be dynamic recrystallization (DRX) rather than dynamic recovery (DRV). The addition of N enhanced the strain rate sensitivity of high-Mn austenitic steel at low temperatures and high strain rates. Furthermore, the addition of N increased the high temperature strength and hot deformation activation energy (Q) of high-Mn austenitic steel. Moreover, the addition of N could also increase the DRX volume fraction and refine the DRX grain size of high-Mn austenitic steel.
ISSN:2238-7854
DOI:10.1016/j.jmrt.2023.10.271