Bainitic transformation and generalized stability

Yu Zhang; Yuqing He; Yiyang Zhang; Shaojie Song; Feng Liu

doi:10.1016/j.scriptamat.2023.115311

Bainitic transformation and generalized stability

Yu Zhang, Yuqing He, Yiyang Zhang, Shaojie Song, Feng Liu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

How to describe the bainitic transformation (BT) has always been considered as a key problem in designing high strength low alloyed (HSLA) steels. Here, an analytical treatment was performed to evaluate quantitatively the growth retardation of BTs, by analysis of thermodynamic driving force ΔG and kinetic energy barrier Q, in combination with modeling transformed fraction by Ravi et al. [Acta Mater. 105 (2016) 155‒164]. Unified expressions for thermo-kinetic correlation and generalized stability (GS) were derived for BT with simultaneously decreased ΔG and increased Q. By fits of the current model to experimental results, the more enduring BT comes from the higher GS, corresponding to the more sustainable BT. Based on a proposed criterion of high ΔG-high GS, the present model can be adopted to design the BT, which will produce the bainitic microstructure with high strength and high plasticity, as evidenced by the current experiments.

Original language	English
Article number	115311
Journal	Scripta Materialia
Volume	227
DOIs	https://doi.org/10.1016/j.scriptamat.2023.115311
State	Published - 1 Apr 2023

Keywords

Bainite
Generalized stability
Incomplete transformation
Thermo-kinetic correlation

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10.1016/j.scriptamat.2023.115311

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title = "Bainitic transformation and generalized stability",

abstract = "How to describe the bainitic transformation (BT) has always been considered as a key problem in designing high strength low alloyed (HSLA) steels. Here, an analytical treatment was performed to evaluate quantitatively the growth retardation of BTs, by analysis of thermodynamic driving force ΔG and kinetic energy barrier Q, in combination with modeling transformed fraction by Ravi et al. [Acta Mater. 105 (2016) 155‒164]. Unified expressions for thermo-kinetic correlation and generalized stability (GS) were derived for BT with simultaneously decreased ΔG and increased Q. By fits of the current model to experimental results, the more enduring BT comes from the higher GS, corresponding to the more sustainable BT. Based on a proposed criterion of high ΔG-high GS, the present model can be adopted to design the BT, which will produce the bainitic microstructure with high strength and high plasticity, as evidenced by the current experiments.",

keywords = "Bainite, Generalized stability, Incomplete transformation, Thermo-kinetic correlation",

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T1 - Bainitic transformation and generalized stability

AU - Zhang, Yu

AU - He, Yuqing

AU - Zhang, Yiyang

AU - Song, Shaojie

AU - Liu, Feng

PY - 2023/4/1

Y1 - 2023/4/1

N2 - How to describe the bainitic transformation (BT) has always been considered as a key problem in designing high strength low alloyed (HSLA) steels. Here, an analytical treatment was performed to evaluate quantitatively the growth retardation of BTs, by analysis of thermodynamic driving force ΔG and kinetic energy barrier Q, in combination with modeling transformed fraction by Ravi et al. [Acta Mater. 105 (2016) 155‒164]. Unified expressions for thermo-kinetic correlation and generalized stability (GS) were derived for BT with simultaneously decreased ΔG and increased Q. By fits of the current model to experimental results, the more enduring BT comes from the higher GS, corresponding to the more sustainable BT. Based on a proposed criterion of high ΔG-high GS, the present model can be adopted to design the BT, which will produce the bainitic microstructure with high strength and high plasticity, as evidenced by the current experiments.

AB - How to describe the bainitic transformation (BT) has always been considered as a key problem in designing high strength low alloyed (HSLA) steels. Here, an analytical treatment was performed to evaluate quantitatively the growth retardation of BTs, by analysis of thermodynamic driving force ΔG and kinetic energy barrier Q, in combination with modeling transformed fraction by Ravi et al. [Acta Mater. 105 (2016) 155‒164]. Unified expressions for thermo-kinetic correlation and generalized stability (GS) were derived for BT with simultaneously decreased ΔG and increased Q. By fits of the current model to experimental results, the more enduring BT comes from the higher GS, corresponding to the more sustainable BT. Based on a proposed criterion of high ΔG-high GS, the present model can be adopted to design the BT, which will produce the bainitic microstructure with high strength and high plasticity, as evidenced by the current experiments.

KW - Bainite

KW - Generalized stability

KW - Incomplete transformation

KW - Thermo-kinetic correlation

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DO - 10.1016/j.scriptamat.2023.115311

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SN - 1359-6462

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JO - Scripta Materialia

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Bainitic transformation and generalized stability

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Keywords

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