X-Ray Diffraction to Study the Oxidation Mechanism of Chromium at Elevated Temperatures


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Materials Science Forum (Volumes 461-464)

Edited by:

Pierre Steinmetz, Ian G. Wright, Gerry Meier, Alain Galerie, Bernard Pieraggi and Renaud Podor




H. Buscail et al., "X-Ray Diffraction to Study the Oxidation Mechanism of Chromium at Elevated Temperatures", Materials Science Forum, Vols. 461-464, pp. 93-100, 2004

Online since:

August 2004




[1] D. Caplan and G.I. Sproule: Oxid. Met. Vol. 9 (1975), p.459.

[2] M. Skeldon, J.M. Calvert and D.G. Lees: Oxid. Met. Vol. 28 (1987), p.109.

[3] S. Jianian, Z. Longjiang and L. Tiefan: Oxid. Met. Vol. 48 (1997), p.347.

[4] Z. Zurek: Solid State Phenom. Vol. 41 (1995), p.185.

[5] D. Caplan, A. Harvey and M. Cohen: Corros. Sci. Vol. 3 (1963), p.161.

[6] E.W.A. Young and J.H. Gerretsen: J. Electrochem. Soc. Vol. 134 (1987), p.2257.

[7] B. Tveten, G. Hultquist and T. Norby: Oxid. Met. Vol. 51 (1999), p.221.

[8] H.C. Graham and H.H. Davis: J. Am. Ceram. Soc. Vol. 54 (1971), p.89.

[9] D. Caplan and M. Cohen: J. Electrochem. Soc. Vol. 108 (1961), p.438.

[10] H. Asteman, J.E. Svensson, L.G. Johansson and M. Norell: Oxid. Met. Vol. 52 (1999), p.95.

[11] B. Gleeson and M.A. Harper: Oxid. Met. Vol. 49 (1998), p.373.

[12] C. de Asmundis, F. Gesmundo and C. Bottino: Oxid. Met. Vol. 14 (1980), p.351.

[13] T. Mills: Oxid. Met. Vol. 15 (1981), p.437.

[14] P. Fox, D.G. Lees and G.W. Lorimer: Oxid. Met. Vol. 36 (1991), p.491.

[15] M.J. Graham, J.I. Eldridge, D.F. Mitchell and R.J. Hussey: Mater. Sci. Forum Vol. 43 (1989), p.207.

[16] W.C. Hagel A.U. Seybolt: J. Electrochem. Soc. Vol. 108 (1961), p.1146.

[17] T. Akermark: Oxid. Met. Vol. 50 (1998), p.167.

[18] C. Brunner, H. Hutter, K. Piplits, P. Wilhartitz, M.F. Stroosnijder, and M. Grasserbauer: J. Anal. Chem. Vol. 358 (1997), p.233.

[19] S.C. Tsaï, A.M. Huntz and J. Philibert: Defect and Diffusion Forum Vol. 143-147 (1997), p.1195.

[20] P. Kofstad: High Temperature Corrosion, (Elsevier Applied Science, London, U.K., 1988), p.116.

[21] Y.P. Jacob, V.A.C. Haanappel, E. Caudron, H. Buscail M.F. Stroosnijder: Mater. Sci. Forum Vol. 371-372 (2001), p.801.

[22] I. Murris, Y.P. Jacob, V.A.C. Haanappel, and M.F. Stroosnijder: Oxid. Met. Vol. 55 (2001), p.307.

[23] Y.P. Jacob, V.A.C. Haanappel, M.F. Stroosnijder, H. Buscail, P. Fielitz and G. Borchardt: Corros. Sci. Vol. 44, 9, (2002), p. (2027).

[24] Y. P. Jacob, H. Buscail, E. Caudron, R. Cueff, M.F. Stroosnijder and V.A.C. Haanappel: Mater. Chem. Phys. Vol. 77/2 (2002), p.444.

[25] Y.P. Jacob, H. Buscail, E. Caudron, R. Cueff and M.F. Stroosnijder: Journal de Physique IV, Vol. 12 (2002), p.207.

[26] K. P. Lillerud and P. Kofstad: J. Electrochem. Soc. Vol. 127 (1980), p.2397.

[27] V. I. Arkharov, V. N. Konev, I. S. Trakhtenberg and S. V. Shumilina: Physics of Metals and Metallography Vol. 5 (1957), p.164.

[28] P. Gimpel and T. Ladwein: (Proceedings of High Nitrogen Steels 88, Lille, Eds. J. Foct and A. Henry, 1988), p.272.

[29] G. R. Wilms and T. W. Rea: Journal of the Less-Common Metals Vol. 1 (1959), p.152.