Study on Microstructure and Properties of 42CrMo Bearing Ring in Cast-rolling Forming and Subsequent Quenching and Tempering

被引：2

作者：

Qin F. ^{[1
]}

Qi H. ^{[1
]}

Li Y. ^{[1
]}

Wei X. ^{[1
]}

机构：

[1] Shanxi Key Laboratory of Metallic Materials Forming Theory and Technology, Taiyuan University of Science and Technology, Taiyuan

来源：

Li, Yongtang (liyongtang@tyust.edu.cn) | 1600年 / Chinese Mechanical Engineering Society卷 / 53期

关键词：

42CrMo bearing ring; Cast-rolling forming; Mechanical properties; Microstructure; Quenching and tempering;

D O I：

10.3901/JME.2017.02.026

中图分类号：

学科分类号：

摘要：

The 42CrMo bearing ring is widely used in industry fields, especially as key components in high-speed rail, motor car and wind power, etc. Based on the cast-rolling compound forming of rings, the hot rolling for centrifugal casting 42CrMo bearing, and subsequent quenching and tempering are studied. The microstructure and mechanical properties of the rolled ring are analyzed, and their evolution laws during quenching and tempering are discussed. The results show that the grain is refined through the whole thickness of the rolled ring, while irregular and equiaxed coarse grains are found near the middle-layer and minimum spread. The values of strength and hardness are high, and plasticity and toughness are low. The fracture appearances of both tensile and impact are characterized by dimple mainly gathered in shear lip, which display cleavage fracture. After tempering at 530℃, the carbide does not be found and the plasticity and toughness remain low. A little of fine and dispersed carbide particle is precipitated at 590℃ tempered. Also, the mechanical properties satisfy the standardized demands of production. In these conditions, the tensile fracture has a few of dimples with a large diameter, and the impact fracture is smooth with homogeneous dimple than that at 530℃ tempered. So a good cooperation between strength and plasticity and toughness for the cast-rolling fabricated bearing ring can be obtained in this study. © 2017 Journal of Mechanical Engineering.

引用

页码：26 / 33

页数：7

共 23 条

[1] Hua L., Qiang D., Ring rolling forming theory and technology for bearing, Journal of Mechanical Engineering, 50, 16, pp. 70-76, (2014)
[2] Liu Y., Zhou L., Zhang C., Et al., Development and quality control of bearing steel for heavy equipment, Iron and Steel, 48, 8, pp. 1-8, (2013)
[3] Lin Y.C., Chen M.S., Zhong J., Constitutive modeling for elevated temperature flow behavior of 42CrMo steel, Computational Materails Science, 42, pp. 470-477, (2008)
[4] Lin Y., Chen M., Zhong J., Investigation on metadynamic recrystallizaton behavior of 42CrMo steel, Transactions of Materials and Heat Treatment, 30, 2, pp. 71-75, (2009)
[5] Xia Y., Zhao L., Yu C., Et al., Dynamic recrystallization critical conditions of 42CrMo steel, Transactions of Materials and Heat Treatment, 34, 4, pp. 74-79, (2013)
[6] Lin Y.C., Chen M.S., Zhong J., Effect of temperature and strain rate on the compressive deformation behavior of 42CrMo steel, Journal of Materails and Processing Technology, 205, pp. 308-315, (2008)
[7] Lin Y.C., Liu G., Effects of strain on the workability of a high strength low alloy steel in hot compression, Materials Science and Engineering A, 523, 1-2, pp. 139-144, (2009)
[8] Qi H., Li Y., Hua L., Et al., Research status and developing trends on the rolling forming process of ring parts, Journal of Mechanical Engineering, 50, 14, pp. 75-80, (2014)
[9] Wang M., Cast-rolling forming process of 42CrMo bearing ring blank, Bearing, 12, 12, pp. 19-20, (2013)
[10] Li Y.T., Ju L., Qi H.P., Et al., Technology and experiments of 42CrMo bearing ring forming based on casting ring blank, Chinese Journal of Mechanical Engineering, 27, 2, pp. 417-427, (2014)

← 1 2 3 →