Affiliation:
1. University of Pittsburgh
Abstract
Thermomechanical controlled processing is a very important way to control the microstructure and mechanical properties in low carbon, high strength steel. This is especially true in the case of bainite formation, where the complexity of the austenite-bainite transformation makes the control of the processing important. In this study, a low carbon, high manganese steel containing niobium was investigated to better understand the roles of austenite conditioning and cooling rates on the bainitic phase transformation. Specimens were compared with and without deformation, and followed by seven different cooling rates ranging between 0.5°C/s and 40°C/s. The CCT curves showed that the transformation behaviors and temperatures are very different. The different bainitic microstructures which varied with austenite deformation and cooling rates will be discussed.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference10 articles.
1. Garcia, C.I., et al. On the Microstructure of Plate Steels for API-5L X120 Applications. in Materials Science Forum. 2012. Trans Tech Publ.
2. Aaronson, H., et al., Bainite viewed three different ways. Metallurgical Transactions A, 1990. 21(6): pp.1343-1380.
3. Bramfitt, B. and J. Speer, A perspective on the morphology of bainite. Metallurgical Transactions A, 1990. 21(3): pp.817-829.
4. Zajac, S., V. Schwinn, and K. Tacke. Characterisation and quantification of complex bainitic microstructures in high and ultra-high strength linepipe steels. in Materials Science Forum. 2005. Trans Tech Publ.
5. Liang, X., The complex phase transformation of austenite in high strength linepipe steels and its influence on the mechanical properties, 2012, University of Pittsburgh.