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- Title
Transformation Behavior and Properties of Carbide‐Free Bainite Steels with Different Si Contents.
- Authors
Tian, Junyu; Xu, Guang; Jiang, Zhengyi; Wan, Xiangliang; Hu, Haijiang; Yuan, Qing
- Abstract
The bainite transformation behavior and properties of low carbon carbide‐free bainitic steels containing different silicon (Si) contents are investigated by two different types of heat treatment processes: isothermal transformation process (ITP) and continuous cooling process (CCP). The results indicate that for ITP and CCP, the transformation kinetics of bainite is retarded and the final bainite amount decreases with increasing Si content. However, both the strength and total elongation improve with the increase of Si content in the range of 1.0–2.0 wt%, resulting in an apparent increment in comprehensive property of bainitic steels due to the more film‐like RA and less carbides. It can be attributed to the increase of shear strength and stability of undercooled austenite and the formation of Cottrell atmosphere, as well as the solid solution strengthening of Si because of higher Si content. In addition, for the same samples, better mechanical properties can be achieved by a lower austempering temperature. Moreover, the increase of Si content resulted in an increase in the temperatures of Ac1 and Ac3. The bainite transformation behavior and properties of low carbon carbide‐free bainitic steels containing different Si contents are investigated. Although the transformation kinetics of bainite is retarded and the final bainite amount decreases with increasing Si content, both the strength and total elongation improve with the increase of Si content due to the finer microstructure and less carbides. The dilatation curves austempering at: (a) 380 °C and (b) 430 °C; and the typical SEM microstructure: (c) austempering at 380 °C for low‐Si sample and (d) austempering at 430 °C for high‐Si sample.
- Subjects
BAINITE; SILICON steel; COOLING; ISOTHERMAL transformations; CARBIDES; TEMPERING; STRENGTH of materials
- Publication
Steel Research International, 2019, Vol 90, Issue 3, pN.PAG
- ISSN
1611-3683
- Publication type
Article
- DOI
10.1002/srin.201800474