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Energy Materials
Materials Science and Engineering for Energy Systems
Volume 11, 2016 - Issue 4: Themed issue on Energy Materials for Turbines and Generators
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Original Articles

Precipitation behaviour during creep in 10%Cr steel for turbine rotors

M. MikamiR&D Department, Japan Casting & Forging Corporation, Kitakyushu, JapanCorrespondence[email protected]
Pages 1074-1081 | Received 29 Jun 2016, Accepted 26 Sep 2016, Published online: 01 Nov 2016

References

  • K.-H. Mayer and F. Masuyama: ‘The development of creep-resistant steels’, in ‘Creep-resistant steels’, (ed. F. Abe et al.), 15–77; 2008, Cambridge, England, Woodhead Publishing Ltd.
  • F. Masuyama: ‘History of power plants and progress in heat resistant steels’, ISIJ Int., 2001, 41, 612–625. doi: 10.2355/isijinternational.41.612
  • R. Ishii, Y. Tsuda, M. Yamada and K. Kimura: ‘Fine precipitates in high chromium heat resisting steels’, Tetsu-to-Hagané, 2002, 86, 36–43.
  • M. Mikami, Y. Wakeshima and T. Miyata: ‘Creep rupture strength and microstructural investigation of 12%Cr steel large forgings for ultra-supercritical steam turbine rotors’, in ‘Advances in materials technology for fossil power plants’, (ed. D. Gandy et al.), 408–422; 2011, Materials Park, OH, ASM International.
  • M. Mikami, K. Sawada, S. Kobayashi, T. Hara and K. Kimura: ‘Effect of tempering condition on creep strength and microstructure in high Cr steel rotor forgings for steam turbines’, in ‘Materials for advanced power engineering 2014’, (ed. J. Lecomte-Beckers et al.), 199–208; 2014, Jülich, Germany, Forschungszentrum Jülich.
  • Y. Kadoya, B. F. Dyson and M. McLean: ‘Microstructural stability during creep of Mo- or W-bearing 12Cr steels’, Metall. Mat. Trans. A, 2002, 33, 2549–2557. doi: 10.1007/s11661-002-0375-z
  • K. Sawada, H. Kushima, M. Tabuchi and K. Kimura: ‘Microstructural degradation of Gr.91 steel during creep under low stress’, Mater. Sci. Eng. A, 2011, 528, 5511–5518. doi: 10.1016/j.msea.2011.03.073
  • M. Mikami: ‘Creep deformation behaviours and microstructural evolution during creep in 10%Cr steel large forging for high temperature steam turbines’, Proc. 1st Int. Conf. on ‘Advanced high-temperature materials technology for sustainable and reliable power engineering (123HiMAT-2015)’, Sapporo, Japan, June 2015, 123rd Committee on Heat Resisting Materials and Alloys, Japan Society for the Promotion of Science, 102–105.
  • K. Miyata, Y. Sawaragi, H. Okada, F. Masuyama, T. Yokoyama and N. Komai: ‘Microstructural evolution of a 12Cr-2W-Cu-V-Nb steel during three-year service exposure’, ISIJ Int., 2000, 40, 1156–1163. doi: 10.2355/isijinternational.40.1156
  • L. Ludin, S. Fällman and H.-O. Andrén: ‘Microstructure and mechanical properties of a 10% chromium steel with improved creep resistance at 600 °C’, Mater. Sci. Technol., 1997, 13, 233–242. doi: 10.1179/mst.1997.13.3.233
  • M. Mikami: ‘Microstructural evolution during creep in 10% Cr steel rotor forgings for high temperature steam turbines’, Trans. Indian Inst. Met., 2016, 69, 175–181. doi: 10.1007/s12666-015-0759-6
  • L. Cipolla, H. K. Danielsen, J. Hald, C. Venditti, A. Di Gianfrancesco and S. Tiberi Vipraio: ‘Formation Z-phase in a 12%CrVNbN model steel’, Proc. of ECCC creep Conf., Zürich, Switzerland, April 2009, European Technology Development, 863–876.

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