High Temperature Oxidation Behaviour of Aluminide Coatings Obtained by Pack Cementation

Abstract:

Article Preview

Info:

Periodical:

Materials Science Forum (Volumes 461-464)

Edited by:

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

Pages:

273-280

Citation:

C. Houngninou et al., "High Temperature Oxidation Behaviour of Aluminide Coatings Obtained by Pack Cementation", Materials Science Forum, Vols. 461-464, pp. 273-280, 2004

Online since:

August 2004

Export:

Price:

$38.00

[1] G. Béranger, J.C. Colson and F. Dabosi: Corrosion des matériaux à haute température, Les éditions de physique, Paris, (1987).

[2] J. Bénard: L'oxydation des métaux, Gauthier-Villars et Cie, Paris, (1962).

[3] F. Fitzer and J. Schlichting: Coatings containing chromium, aluminium and silicon for high temperature alloys, (High Temp. Corros., NACE, 6, Houston 1983).

[4] P. Sarrazin, A. Galerie and J. Fouletier: Les mécanismes de la corrosion sèche : une approche cinétique, EDP Sciences, Paris, (2000).

[5] A.M. Limarga, S. Widjaja, T.H. Yip and L.K. Teh: Surf. Coat. Tech. Vol. 153 (2002), p.16.

[6] R. Prescott, M.J. Graham: Oxid. Met. Vol. 38 (3/4) (1992), p.233.

[7] D.B. Lee, G.Y. Kim and J.G. Kim: Mater. Sci. Eng. Vol. A339 (2003), p.109.

[8] C.H. Xu, W. Gao and D. Li: Corros. Sci. Vol. 43 (2001), p.671.

[9] C.H. Xu, W. Gao and H. Gong: Intermetallics Vol. 8 (2000), p.769.

[10] J. Jedlinski: Solid State Ionics Vol. 101-103 (1997), p.1033.

[11] C. Badini, F. Laurella: Surf. Coat. Tech. Vol. 135 (2001), p.291.

[12] I.M. Wolff, L.E. Iorio, T. Rumpf, P.V.T. Scheers and J.H. Potgieter: Mater. Sci. Eng. Vol. A241 (1998), p.264.

[13] R. Prescott, D.F. Mitchell, J.W. Fraser and M.J. Graham: J. Phys. IV (1993), p.301.

[14] R. Cueff, H. Buscail, E. Caudron, C. Issartel and F. Riffard: Oxid. Met. Vol. 58 (5/6) (2002), p.439.

DOI: https://doi.org/10.1023/a:1020511304401

[15] V. Kolaric, A. Kolb-Telieps, H. Hattendorf, M. d.M. Juez-Lorenzo, H. Fietzek and R. Hojda: p.117.

[16] S. Yang, F. Wang and W. Wu: Intermetallics Vol. 9 (2001), p.741.

[17] A. Andoh, S. Taniguchi and T. Shibata: Oxid. Met. Vol. 46 (5/6) (1996), p.481.

[18] K.Y. Kim, S.H. Kim, K.W. Kmon and L.H. Kim: Oxid. Met. Vol. 41 (3/4) (1994), p.179.

[19] R.J. Christensen, V.K. Tolpygo and D.R. Clarke: Acta Mater. Vol. 45 (4) (1997), p.1761.

[20] P. Tomaszewicz and G.R. Wallwork: (High Temp. Corros., NACE, 6, Houston 1983).

[21] R. A. Perkins: (High Temp. Corros., NACE, 6, Houston 1983).

[22] K. Stein-Fechner, J. Konys and O. Wedemeyer: J. Nucl. Mater. Vol. 249 (1997), p.33.

[23] N. S. Stoloff: Mater. Sci. Eng. A258 (1998), p.1.

[24] R.S. Sundar, R.G. Baligidad, Y.V.R.K. Prasad and D.H. Sastry: Mater. Sci. Eng. Vol. A258 (1998), p.219.

[25] R. Mevrel and P. Pichoir: Mater. Sci. Eng. Vol. 88 (1987), p.1.

[26] M.A. Montealegre, J.L. Gonzàlez-Carrasco, M.A. Morris-Munoz, J. Chao and D.G. Morris: Intermetallics Vol. 8 (2000), p.439.

[27] G.H. Meier, Research on oxidation and embrittlement on intermetallic compounds in the U.S., (Oxidation of Intermetallics, H.J. Grabke, M. Schütze Eds., Wiley VCH 1998).

[28] L. Levin, A. Ginzburg, L. Klinger, T. Werber, A. Katsman and P. Schaaf: Surf. Coat. Tech. Vol. 106 (1998), p.209.

[29] W. -T. Tsai and K. -E. Huang: Thin Solid Films Vol. 366 (2000), p.164.

[30] Z.D. Xiang, J.S. Burnell-Gray and P.K. Datta: J. Mater. Sci. Vol. 36 (2001), p.5673.

[31] J.A. Hearley, J.A. Little and A.J. Sturgeon: Surf. Coat. Tech. Vol. 123 (2000), p.210.

[32] D.K. Das, V. Singh and S.V. Joshi: Metall. Mater. Trans. Vol. 29A (1998), p.2173.

[33] N. Voudouris, C. Christoglou and G. N. Angelopoulos: Surf. Coat. Tech. Vol. 141 (2001), p.275.

[34] A.M. Hodge and D.C. Dunand: Intermetallics Vol. 9 (2001), p.581.

[35] C. Houngninou, S. Chevalier and J.P. Larpin: Ann. Chim. Sci. Mat Vol. 28 (1) (2003), p.175.

[36] C. Houngninou, S. Chevalier and J.P. Larpin: To be published in Appl. Surf. Sci. (2003).

[37] S. Chevalier, M. Kilo, G. Borchardt and J.P. Larpin: Appl. Surf. Sci. Vol. 205 (2003), p.188.

[38] S. Chevalier, G. Bonnet, J.P. Larpin and J.C. Colson: Corros. Sci. Vol. 45 (2003), p.1661.

[39] C.D.N. Chan, C. Huvier and J.F. Dinhut: Intermetallics Vol. 9 (2001), p.817.

[40] I. Rommerskirchen, B. Eltester and H.J. Grabke: Mater. Corros. Vol. 47 (1996), p.646.

[41] C. -H. Xu, W. Gao and Y. -D. He: Scripta Mater. Vol. 41 (2000), p.975.

[42] B.A. Pint, J.R. Martin and L.W. Hobbs: Solid State Ionics Vol. 78 (1995), p.99.

[43] J.M.N.G. Muamba, R. Streiff and D.H. Boone: Mater. Sci. Eng. Vol. 88 (1987), p.111.

[44] J.L. Smialek and R. Gibala: Diffusion processes in Al2O3 scales : void growth, grain growth, and scale growth, (High temperature corrosion, NACE, 6, Houston 1983).

[45] J. Jedlinski: Oxid. Met. Vol. 39 (1/2) (1993), p.55.

[46] S. Taniguchi: Mater. Corros. Vol. 49 (1997), p.1.

[47] S. Chevalier, J.P. Larpin, P. Dufour, G. Strehl, G. Borchardt, K. Przybylski, S. Weber and H. Scherrer: Materials at high temperatures 20 (3) (2003), p.365.

DOI: https://doi.org/10.1179/mht.2003.043

[48] R. Bianco, R.A. Rapp and J.L. Smialek: J. Electrochem. Soc 140 (4) (1993), p.1191.

[49] S. Chevalier, G. Strehl, H. Buscail, G. Borchardt and J. P. Larpin: Mater. Corros. (To be published).

Fetching data from Crossref.
This may take some time to load.