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HomeMaterials Science ForumMaterials Science Forum Vols. 461-464Oxygen and Water Vapour Oxidation of 15Cr Ferritic...

Oxygen and Water Vapour Oxidation of 15Cr Ferritic Stainless Steels with Different Silicon Contents

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High Temperature Corrosion and Protection of Materials 6

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Periodical:

Materials Science Forum (Volumes 461-464)

Pages:

839-848

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.461-464.839

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Online since:

August 2004

Authors:

Yves Wouters, G. Bamba, Alain Galerie, Michel Mermoux, Jean Pierre Petit

Keywords:

Ferritic Stainless Steel (FSS), Photoelectrochemistry, Raman Spectroscopy, Silicon Additions, Thermal Oxidation

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© 2004 Trans Tech Publications Ltd. All Rights Reserved

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[1] I. Kvernes, M. Oliveira and P. Kofstad: Corros. Sci. Vol. 17 (1977), p.237.

[2] F.H. Stott et al.: Werkst. Korros. Vol. 38 (1987), p.521.

[3] R. Durham et al.: Oxid. Met. Vol. 50 (1998), p.139.

[4] S. Henry, A. Galerie, L. Antoni and J. -P. Petit: Mater. Sci. Forum Vol. 369-372 (2001), p.353.

[5] A. Galerie, S. Henry, Y. Wouters, J. -P. Petit, M. Mermoux, C. Chemarin and L. Antoni: Life Time Modelling of High Temperature Corrosion Processes, Eds. M. Schütze, W.J. Quadakkers and J. Nicholls, EFC series N°34 (2001), p.190.

[6] O. Sunseri, S. Piazza and F. Di Quarto: J. Electrochem. Soc. Vol. 137 [8] (1990), p.2411.

[7] S. Henry, J. Mougin, Y. Wouters, J. -P. Petit and A. Galerie: Mater. High Temp. Vol. 17.

[2] (2000), p.231.

[8] K.F. McCarthy and D.R. Boehme: J. Solid State Chem. Vol. 79 (1989), p.19.

[9] M. A Butler and D.S. Ginley: J. Electrochem. Soc. Vol. 125 (1973), p.228.

[10] F. Di Quarto, S. Piazza and C. Sunseri: Modification of Passive Film. Ed P. Marcus, B. Baroux, M. Keddam EFC Publication Paris, 76, (1994). 0.

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DOI: 10.7717/peerj.10041/table-2

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[1] 0 Fe × 1. 5 Cr × 4 Si O × 10 Ti × 6 Erosion time (s) Intensity (a. u. ) Oxide Stainless steel Interface Intensity (a. u. ) Erosion time (s) Metal.