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Journal of Materials Engineering and Performance

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21-12-2016

Effect of Spheroidizing Annealing on Microstructure and Mechanical Properties of High-Carbon Martensitic Stainless Steel 8Cr13MoV

Authors: Wen-Tao Yu, Jing Li, Cheng-Bin Shi, Qin-Tian Zhu

Published in: Journal of Materials Engineering and Performance | Issue 2/2017

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Abstract

The effects of holding time during both austenitizing and spheroidizing on microstructure and mechanical properties of high-carbon martensitic stainless steel 8Cr13MoV were experimentally studied. The results showed that the amount of carbides and the proportion of fine carbides decrease first and then increase with the increase in austenitizing time (t ₁) in the case of short spheroidizing time (t ₂), whereas the amount of the lamellar carbides increases. In the case of long t ₂, both the amount of carbides and the proportion of fine carbides decrease, and the amount of the lamellar carbides did not increase. The hardness of the steel decreases first and then increases with the increase of t ₁. Under the conditions of different t ₁, the change in the size of carbides and hardness of the steel show a same trend with the variation of t ₂. The size of spheroidized carbides increases, whereas the hardness of the steel decreases with increasing t ₂. The longer the holding time of austenitizing, the higher is the spheroidizing rate at the earlier stage. However, the spheroidizing rate shows an opposite trend with t ₁ at the later stage of spheroidizing. The effect of cooling rate on microstructure is similar with t ₂. With increasing cooling rate, the dimension of carbides became smaller, and the amount of lamellar carbides increased. The elongation of the sample fracture exhibits no corresponding relationship with holding time, whereas it is closely related to the precipitation of secondary carbides caused by the alloying elements segregation.

previous article Isothermal Transformation of a Commercial Super-Bainitic Steel: Part I Microstructural Characterization and Hardness

next article Vacuum Brazing of WC-8Co Cemented Carbides to Carbon Steel Using Pure Cu and Ag-28Cu as Filler Metal

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D.H. Mesa, A. Toro, A. Sinatora, and A.P. Tschipschin, The Effect of Testing Temperature on Corrosion-Erosion Resistance of Martensitic Stainless Steels, Wear, 2003, 255, p 139–145CrossRef

D.V. John, H.P. Alfred, and F.C. Howard, Wear Tests of Steel Knife Blades, Wear, 1093, 2008, p 265

Q.T. Zhu, J. Li, C.B. Shi, and W.T. Yu, Effect of Quenching Process on the Microstructure and Hardness of High-Carbon Martensitic Stainless Steel, J. Mater. Eng. Perform., 2015, 24(11), p 4313–4321CrossRef

N.G. Zhao, Z.G. Yang, and Y.L. Feng, Solid Phase Transformations in Alloys, Central South University Press, Changsha, 2008, p 134

D. Yao, J. Li, J.H. Li, and Q.T. Zhu, Effect of Cold Rolling on Morphology of Carbides and Properties of 7Cr17MoV Stainless Steel, Mater. Manuf. Process, 2015, 30, p 111–115CrossRef

D.L. Li, D.S. Ma, Z.Z. Chen, H. Ji, B.S. Liu, A.J. Kuang, and Z.L. Zhan, Spheroidizing Annealing Process of 7CrMn2Mo Steel, Heat Treat. Met., 2010, 35, p 57–61

G.E. Totten, Steel Heat Treatment Metallurgy and Technologies, CRC Press, Boca Raton, 2007, p 201

J.D. Verhoeven and E.D. Gibson, The Divorced Eutectoid Transformation in Steel, Metall. Mater. Trans. A, 1998, 29, p 1181–1189CrossRef

J.D. Verhoeven, The Role of the Divorced Eutectoid Transformation in the Spheroidization of 52100 Steel, Metall. Mater. Trans. A, 2000, 31, p 2431–2438CrossRef

10.

F.J. Hui, H. Dong, Q.Y. Weng, M.Q. Wang, S.L. Chen, and J. Shi, Effect of Heat Treatment Parameters on Mechanical Properties of High Strength Cr-Mo-V Steel, Acta Metall. Sin., 2002, 10, p 1009–1014

11.

H.J. Li, B.Q. Wang, X.Y. Song, S.Z. Guo, and N.J. Gu, New Spheroidizing Technique of Ultra-High Carbon Steel with Aluminum Addition, J. Iron. Steel Res. Int., 2006, 13, p 9–13CrossRef

12.

W.T. Yu, J. Li, C.B. Shi, and Q.T. Zhu, Effect of Electroslag Remelting Parameters on Primary Carbides in Stainless Steel 8Cr13MoV, Mater. Trans, 2016, 57(9), p 1547–1551CrossRef

13.

W.T. Yu, J. Li, C.B. Shi, and Q.T. Zhu, Effect of Titanium on the Microstructure and Mechanical Properties of High-Carbon Martensitic Stainless Steel 8Cr13MoV, Metals, 2016, 6(8), p 193CrossRef

14.

Y.L. He, N.Q. Zhu, X.Y. Hu, and L. Li, Thermodynamic and Kinetic Calculation on Precipitation Behavior of Chromium Carbide, Trans. Mater. Heat Treat., 2001, 32(1), p 134–137

15.

J.M. Xiao, The Metallography of Stainless Steel, Metallurgical Industry Press, Beijing, 2006, p 101

16.

Z.L. Song, X.D. Du, Y.Q. Chen, J.Q. Wang, C. Ye, and L.Y. Li, Microstructure and Impact Toughness of 7Cr17Mo Martensitic Stainless Steel, Trans. Mater. Heat Treat., 2011, 32, p 95–99

17.

X. Wu, Z.X. Zhao, and R.D. Xue, Carbide behavior in 5Cr15MoV steel during the isothermal and slow cooling process of spheroidization annealing, Trans. Mater. Heat Treat., 2014, 10, p 98–102

18.

N.V. Luzginova, L. Zhao, and J. Sietsma, The Cementite Spheroidization Process in High-Carbon Steels with Different Chromium Contents, Metall. Mater. Trans. A, 2008, 39, p 513–521CrossRef

19.

Y.Z. Wu and L. Li, Materials Thermodynamics, Science Press, Beijing, 2000, p 173

20.

X.B. Hu, L. Li, and X.C. Wu, Coarsening Kinetics of Carbides in 4Cr5MoSiV1 Hot Work Tool Steel During Thermal Fatigue, Trans. Mater. Heat Treat., 2005, 01, p 57–62

21.

H. Di, X. Zhang, and G. Wang, Spheroidizing Kinetics of Eutectic Carbide in the Twin Roll-Casting of M2 High-Speed Steel, J. Mater. Process. Technol., 2005, 166, p 359–363CrossRef

22.

X.F. Zhou, F. Fang, G. Li, and J.Q. Jiang, Morphology and Properties of M2C Eutectic Carbides in AISI, M2, ISIJ Int., 2010, 50, p 1151–1157CrossRef

23.

V.I. Chumanov and I.V. Chumanov, Control of the Carbide Structure of Tool Steel During Electroslag Remelting: Part I, Russ. Metall., 2011, 6, p 515–521CrossRef

24.

N. Meilinda, T. Panos, and J.P. Eric, A Study of Carbide Precipitation in a H21 Tool Steel, ISIJ Int., 2014, 54, p 1667–1676CrossRef

25.

Q.T. Zhu, J. Ling, C.B. Shi, and W.T. Yu, Effect of Electroslag Remelting on Carbides in 8Cr13MoV Martensitic Stainless Steel, Int. J. Min. Metall. Mater., 2015, 22, p 1149–1156CrossRef

Title: Effect of Spheroidizing Annealing on Microstructure and Mechanical Properties of High-Carbon Martensitic Stainless Steel 8Cr13MoV
Authors: Wen-Tao Yu
Jing Li
Cheng-Bin Shi
Qin-Tian Zhu
Publication date: 21-12-2016
Publisher: Springer US
Published in: Journal of Materials Engineering and Performance / Issue 2/2017
Print ISSN: 1059-9495
Electronic ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-016-2461-1

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