An optimized hardness model for carburizing-quenching of low carbon alloy steel

Research has been conducted about the hardness prediction for the carburizing and quenching process based on an optimized hardness simulation model, in accordance with the calculation rule of mixed phases. The coupling field model incorporates carburizing field analysis, temperature field analysis,...

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Published in	Journal of Central South University Vol. 24; no. 1; pp. 9 - 16
Main Authors	Zhang, Xing, Tang, Jin-yuan, Zhang, Xue-rui
Format	Journal Article
Language	English
Published	Changsha Central South University 01.01.2017 Springer Nature B.V
Subjects	Alloy steels Carbon content Carburizing Engineering Hardness Low carbon steels Martensite Metallic Materials Phase transitions Quenching Retained austenite Simulation models Temperature distribution high carbon content hardness model DEFORM-HT residual austenite carburizing-quenching simulation
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ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-017-3403-2

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Abstract	Research has been conducted about the hardness prediction for the carburizing and quenching process based on an optimized hardness simulation model, in accordance with the calculation rule of mixed phases. The coupling field model incorporates carburizing field analysis, temperature field analysis, phase transformation kinetics analysis and a modified hardness calculation model. In determination of the calculation model for hardness, calculation equations are given to be applied to low carbon content ( x (C)≤0.5%) for the child phases and the martensite hardness is calculated for high carbon content ( x (C)>0.5%) in alloy. Then, the complete carburizing-quenching hardness calculation model is built, and the hardness simulation data are corrected considering the influence of residual austenite (RA) on hardness. Hardness simulations of the carburizing and quenching process of 17CrNiMo6 samples have been performed using DEFORM-HT_V10.2 and MATLAB R2013a. Finally, a series of comparisons of simulation results and measured values show a good agreement between them, which validates the accuracy of the proposed mathematical model.
AbstractList	Research has been conducted about the hardness prediction for the carburizing and quenching process based on an optimized hardness simulation model, in accordance with the calculation rule of mixed phases. The coupling field model incorporates carburizing field analysis, temperature field analysis, phase transformation kinetics analysis and a modified hardness calculation model. In determination of the calculation model for hardness, calculation equations are given to be applied to low carbon content (x(C)≤0.5%) for the child phases and the martensite hardness is calculated for high carbon content (x(C)>0.5%) in alloy. Then, the complete carburizing-quenching hardness calculation model is built, and the hardness simulation data are corrected considering the influence of residual austenite (RA) on hardness. Hardness simulations of the carburizing and quenching process of 17CrNiMo6 samples have been performed using DEFORM-HT_V10.2 and MATLAB R2013a. Finally, a series of comparisons of simulation results and measured values show a good agreement between them, which validates the accuracy of the proposed mathematical model. Research has been conducted about the hardness prediction for the carburizing and quenching process based on an optimized hardness simulation model, in accordance with the calculation rule of mixed phases. The coupling field model incorporates carburizing field analysis, temperature field analysis, phase transformation kinetics analysis and a modified hardness calculation model. In determination of the calculation model for hardness, calculation equations are given to be applied to low carbon content ( x (C)≤0.5%) for the child phases and the martensite hardness is calculated for high carbon content ( x (C)>0.5%) in alloy. Then, the complete carburizing-quenching hardness calculation model is built, and the hardness simulation data are corrected considering the influence of residual austenite (RA) on hardness. Hardness simulations of the carburizing and quenching process of 17CrNiMo6 samples have been performed using DEFORM-HT_V10.2 and MATLAB R2013a. Finally, a series of comparisons of simulation results and measured values show a good agreement between them, which validates the accuracy of the proposed mathematical model.
Author	Zhang, Xing Tang, Jin-yuan Zhang, Xue-rui
Author_xml	– sequence: 1 givenname: Xing surname: Zhang fullname: Zhang, Xing organization: State Key Laboratory of High Performance Complex Manufacturing, Central South University – sequence: 2 givenname: Jin-yuan surname: Tang fullname: Tang, Jin-yuan email: jytangcsu@163.com organization: State Key Laboratory of High Performance Complex Manufacturing, Central South University – sequence: 3 givenname: Xue-rui surname: Zhang fullname: Zhang, Xue-rui organization: School of Software, Central South University
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SubjectTerms	Alloy steels Carbon content Carburizing Engineering Hardness Low carbon steels Martensite Metallic Materials Phase transitions Quenching Retained austenite Simulation models Temperature distribution
Title	An optimized hardness model for carburizing-quenching of low carbon alloy steel
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