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New bainitic steels for forgings

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Wybrane pełne teksty z tego czasopisma
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Języki publikacji
EN
Abstrakty
EN
Steels with a bainitic microstructure offer great possibilities for highly stressed forged components. The variety of different bainitic morphologies requests for an aligned thermal treatment after forging in order to achieve the maximum performance. In dependence of the alloying concept and heat treatment bainite is composed of different microstructural components like the ferritic primary phase and the secondary phase, which consists of either carbides, martensite and/or austenite. Different combinations of mechanical properties can thereby be adjusted in these steels, dependent on the arrangement of the primary and secondary phase. Three steels have been investigated, which contain approximately 0.22% C, 1.5% Si, 1.5% Mn, 0.08% Mo, 0.003% B and 0.01 Ti. Their chromium contents vary between 0% for grade 1 and 1.3% for grades 2 and 3. The niobium content varies between 0% for grades 1 and 2 and 0.03% for grade 3. The Si addition is utilized to suppress the carbide formation, so a carbide free bainitic microstructure is expected to form, whereas Mo and B are employed in order to promote the bainite formation. The bainitic microstructure of these steels can be formed either after isothermal phase transformation or after continuous cooling. These two process routes lead to different results with regard to the mechanical properties, especially the Y/T-ratio. While after isothermal transformation the low chromium containing grade 1 exhibits a higher Y/T-ratio than grades 2 and 3, this fact is turned around for the case of the bainite formation after continuous cooling. In the latter case the high chromium containing steel exhibits both higher yield and tensile strength. These differences in mechanical properties can be correlated to characteristic features of the primary and secondary phases of the bainitic microstructures. The specific role of chromium is explained by its effect on the phase transformation kinetics.
Rocznik
Strony
119--125
Opis fizyczny
Bibliogr. 15 poz., rys., wykr., tab.
Twórcy
autor
  • Department of Ferrous Metallurgy, RWTH Aachen University, Intzestrasse 1, 52072 Aachen, Germany
autor
  • Department of Ferrous Metallurgy, RWTH Aachen University, Intzestrasse 1, 52072 Aachen, Germany
autor
  • Department of Ferrous Metallurgy, RWTH Aachen University, Intzestrasse 1, 52072 Aachen, Germany
Bibliografia
  • [1] E. Erisir, B. Zeislmair, C. Keul, F. Gerdemann, W. Bleck, in: 19th International Forging Congress, Chicago, 2008, pp. 177–188.
  • [2] T. Gladman, The Physical Metallurgy of Microalloyed Steels, The Institute of Materials, London, 1997, pp. 341–348.
  • [3] M. Cristinacce, P.E. Reynolds, in: C.J. Van Tyne, G. Krauss, D.K. Matlock (Eds.), Fundamentals and Applications of Microalloying Forging Steels, TMS, Warrendale, PA, 1996, pp. 29–43.
  • [4] J. Arndt, Schmiede Journal (3) (2004) 17–18.
  • [5] C. Lemaitre, P. Dierickx, New Development in Long and Forged Products Proceedings (2006) 29–36.
  • [6] R.W.K. Honeycombe, H.K.D.H. Bhadeshia, in: Steels Microstructure and Properties, 2nd edition, Edward Arnold, London, 1995.
  • [7] H.K.D.H. Bhadeshia, in: Bainite in Steels Transformations, Microstructure and Properties, 2nd edition, The Institute of Metals, 2001.
  • [8] J. Wang, P.J. Van der Wolk, S. Van der Zwaag, Journal of Materials Science 35 (2000) 4393–4404.
  • [9] C. Keul, W. Bleck, Journal of Iron and Steel Research International 18 (Suppl. 1-1) (2011) 104–111.
  • [10] L.C. Chang, H.K.D.H. Bhadeshia, Materials Science and Technology 6 (1990) 592–603.
  • [11] M. Takahashi, H.K.D.H. Bhadeshia, Materials Science andTechnology 11 (1995) 874–881.
  • [12] R. Langeborg, O. Sandberg, W. Roberts, in: G. Krauss, S.K. Banerji (Eds.), Fundamentals of Microalloying Forging Steels, TMS, Warrendale, PA, 1987, pp. 39–54.
  • [13] K.R. Kinsmann, H.I. Aaronson, Metallurgical Transactions 4 (1973) 959–967.
  • [14] W.T. Reynolds, F.Z. Li, C.K. Shui, H.I. Aaronson, Metallurgical Transactions A 21A (1990) 1433–1463.
  • [15] H.I. Lee, G. Spanos, G.J. Shiflet, H.I. Aaronson, Acta Metallurgica 36 (1988) 1129–1140.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3c21498b-8518-468d-a2bc-cd7608347766
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