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Corrosion Engineering, Science and Technology
The International Journal of Corrosion Processes and Corrosion Control
Volume 52, 2017 - Issue 1
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Original Articles

Impact specimen geometry on T23 and TP347HFG steels behaviour during steam oxidation at harsh conditions

T. DudziakFoundry Research Institute, Centre for High Temperature Studies, Zakopiańska 73, 30-418 Krakow, PolandCorrespondence[email protected]
,
M. LukaszewiczExova (UK) Ltd, 12 High March, Daventry, NorthamptonshireNN11 4HB, UK
,
N. J. SimmsCranfield University, School of Applied Science, Cranfield, BedfordshireMK43 0AL, UK
&
J. R. NichollsCranfield University, School of Applied Science, Cranfield, BedfordshireMK43 0AL, UK
Pages 46-53 | Received 03 Mar 2016, Accepted 27 Apr 2016, Published online: 26 May 2016

References

  • J. Henry, G. Zhou and T. Ward: ‘Lessons from the past: materials-related issues in an ultra-supercritical boiler at eddystone plant’, Mater. High Temp., 2007, 24, 249–258. doi: 10.3184/096034007X277924
  • P. J. Ennis and W. J. Quadakkers: ‘Implications of steam oxidation for service life of the high-strength martensitic steel components in high-temperature plant’, Int. J. Pres. Ves. Pip., 2007, 84, (1-2), 82–87. doi: 10.1016/j.ijpvp.2006.09.008
  • P. J. Ennis and W. J. Quadakkers: ‘Mechanisms of steam oxidation in high strength martensitic steels', Int. J. Pres. Ves. Pip., 2007, 84, (1-2), 75–81. doi: 10.1016/j.ijpvp.2006.09.007
  • A. N. Hansson and M. Montgomery: ‘Long term steam oxidation of TP347H FG in power plant’, Mater. High Temp., 2005, 22, (3-4), 263–267. doi: 10.1179/mht.2005.030
  • R. Viswanathan, J. Sarver and J. M. Tanzosh: ‘Boiler materials for ultra supercritical coal power plants – steamside oxidation’, J. Mater. Eng. Perform., 2006, 15, (3), 255–274. doi: 10.1361/105994906X108756
  • R. Viswanathan, R. Purgert and U. Rao: Materials technology for advance coal power plants EPRI Report, 2002.
  • J. Gabrel, C. Coussement, L. Verelst, R. Blum, Q. Chen and C. Testani: ‘Superheater materials testing for USC boilers: steam side oxidation rate of advanced materials in industrial conditions', Mater. Sci. Forum., 2001, 369–372, 931–938. doi: 10.4028/www.scientific.net/MSF.369-372.931
  • S. Osgerby and J. Quadakkers: ‘The influence of laboratory test procedures on scale growth kinetics and microstructure during steam oxidation testing’, Mater. High Temp., 2005, 22, 27–33. doi: 10.3184/096034005782750473
  • L. Sanchez, M. P. Hierro and F. J. Perez: ‘Effect of chromium content on the oxidation behaviour of ferritic steels for applications in steam atmospheres at high temperatures', Oxid. Met., 2009, 71, (3-4), 173–186. doi: 10.1007/s11085-008-9134-x
  • N. Otsuka: ‘Fracture behavior of steam-grown oxide scales formed on 2–12%Cr steels', Mater. High Temp., 2005, 22, (1-2), 131. doi: 10.1179/mht.2005.015
  • A. Shibli and F. Starr: ‘Development of and integrity issues with new high temperature high strength steels', Int. J. Pres. Ves. Pip., 2007, 84, (1-2), 114–122. doi: 10.1016/j.ijpvp.2006.11.002
  • W. Quadakkers, P. Ennis, J. Żurek and M. Michalik: ‘Steam oxidation of ferritic steels – laboratory test kinetic data –,workshop on scale growth and exfoliation in steam plant’, Mater. High Temp., 2007, 22, (1-2), 47–60. doi: 10.1179/mht.2005.006
  • J. Ehlers, D. J. Young, E. J. Smaardijk, A. K. Tyagi, H. J. Penkalla, L. Singheiser and W. J. Quadakkers: ‘Enhanced oxidation of the 9%Cr steel P91 in water vapour containing environments', Corros. Sci., 2006, 48, (11), 3428–3454. doi: 10.1016/j.corsci.2006.02.002
  • C. W Tuck, M. Odgers and K. Sachs: ‘The oxidation of iron at 950°C in oxygen/water vapour mixtures', Corros. Sci., 1969, 9, 271–285. doi: 10.1016/S0010-938X(69)80056-9
  • I. G. Wright and B. A. Pint: An assessment of the high-temperature oxidation behaviour of Fe–Cr steels in water vapour and steam Denver, USA NACE Corrosion, 2002.
  • V. Lepingle, G. Louis, D. Petelot, B. Lefebvre and J. Vaillant: ‘High temperature corrosion behaviour of some boiler steels in pure water vapour’, Mater. Sci. Forum., 2001, 369–372, 239–246. doi: 10.4028/www.scientific.net/MSF.369-372.239
  • N. Komai, F. Masuyama and M. Igarashi: ‘10-year experience with T23 and T22 in a power boiler’, J. Press. Vessel. Technol., 2005, 127, (2), 190–196. doi: 10.1115/1.1904052
  • A. Fry, S. Osgerby and M. Wright: ‘Oxidation of alloys in steam environments – a review’, 2002, UK, National Physical Laboratory (NPL).
  • I. G. Wright and R. B. Dooley: ‘A review of the oxidation behaviour of structural alloys in steam’, Int. Mater. Rev., 2010, 55, (3), 129–167. doi: 10.1179/095066010X12646898728165
  • S. R. Paterson, R. Moser and T. Rettig: Electric Power Research Institute/VGB Technische Vereinigung der Grosskraftwerksbetreiber in Atomic Energy Commission USA -Reports-; 8-1; Interaction of iron-based materials with water and steam by EPRI; 1993.
  • S. R. J. Saunders and L. N. McCartney: ‘Current understanding of steam oxidation - power plant and laboratory experience’, Mater. Sci. Forum., 2006, 522–523, 119–128. doi: 10.4028/www.scientific.net/MSF.522-523.119
  • N. Nishimura, N. Komai, Y. Hirayama and F. Masuyama: ‘Japanese experience with steam oxidation of advanced heat-resistant steel tubes in power boilers', Mater. High Temp., 2005, 22, 3–10. doi: 10.3184/096034005782750554
  • J. C. Griess, J. H. DeVan and W. A. Maxwell: Long-term corrosion of Cr–Ni steels in superheated steam at 482 and 538°C, NACE Corrosion 81, April (Toronto, Canada), NACE, Houston, TX, 1981.
  • A. H. Ughes, R. B. Dooley and S. Paterson: Oxide exfoliation of TP347HFG in high-temperature boilers, Institute of Materials Engineering Ltd, Australia, Sydney, 2003.

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