Zirconium Modified Aluminide by a Vapour Pack Cementation Process for Thermal Barrier Applications: Formation Mechanisms and Properties

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:

375-382

Citation:

S. Naveos et al., "Zirconium Modified Aluminide by a Vapour Pack Cementation Process for Thermal Barrier Applications: Formation Mechanisms and Properties", Materials Science Forum, Vols. 461-464, pp. 375-382, 2004

Online since:

August 2004

Export:

Price:

$38.00

[1] C.A. Barrett: Oxid. Met. Vol. 30 [5/6] (1988), p.361.

[2] B.A. Pint, A.J. Garratt-Reed and L.W. Hobbs: Microscopy of Oxidation 2 (S. B. Newcomb, M.J. Bennett (eds) Institute of Metals, London, UK 1993), p.463.

[3] E. Schumann, J.C. Yang, M. Rühle and M.J. Graham: Oxid. Met. Vol. 46 (1996), p.37.

[4] R. Prescott, D.F. Mitchell, M.J. Graham and J. Doychak: Corros. Sci. Vol. 9 (1995), p.1341.

[5] B.A. Pint, B.A. Nagarai and M.A. Rosenzweig: Elevated Temperature Coatings: Science and Technology II, (N. B. Dahorte, J. M. Hampikian, and J. J. Stiglich eds., 1996), p.163.

[6] P. Josso, M-P. Bacos, S. Landais, R. Mévrel, S. Navéos and C. Rio: SURFAIR (Symp. Proceedings of SURFAIR, 14th International Conference on Surface Treatment in the Aeronautical and Space Industries, Toulouse France 2002).

[7] B.A. Pint, I.G. Wright and W.J. Brindley: J. Therm. Spray Techn. Vol. 9 (2000), p.198.

[8] P. Caron: SUPERALLOYS 2000 (Symp. Proceedings of the 9th International Symposium on Superalloys, Champion USA 2000), p.737.

[9] M-P. Bacos, S. Navéos and P. Josso: Demande de brevet français n° 03. 04104 du 2 Avril (2003).

[10] G.W. Goward and D.H. Boone: Oxid. Met. Vol. 3 (1971), p.475.

[11] B.A. Pint and L.W. Hobbs: J. Electrochem. Soc. Vol. 141 (1994), p.2443.

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

[13] B.A. Pint: Oxid. Met. Vol. 45 (1996), p.1.

[14] B.A. Pint, I.G. Wright, W.Y. Lee, Y. Zhang, K. Prüβner and K.B. Alexander: Mater. Sci. Eng. Vol. A 245 (1998), p.201.

[15] G.C. Rubicki and J.L. Smialek: Oxid. Met. Vol. 31(3/4) (1989), p.275.

[16] F.A. Golightly, F.H. Stott and G.C. Wood: Oxid. Met. Vol. 10 (1976), p.163.

[17] F.H. Stott: Mater. Sci. Forum Vol. 251-254 (1997), p.19.

[18] J.L. Smialek: High Temp. Mat. Chem. IV Vol. 88-5 (1987), p.241.

[19] P.Y. Hou: Oxid. Met. Vol. 52 (1999), p.337.

[20] A.W. Fundenbusch, J.G. Smeggil and N.S. Bornstein: Metall. Trans. A Vol. 16 (1985), p.1164.

[21] J.G. Smeggil, A.W. Fundenbusch and N.S. Bornstein: Metall. Trans. A Vol. 17 (1986), p.923.

[22] J.D. Kuenzly and D.L. Douglass: Oxid. Met. Vol. 8 (1974), p.139.

[23] M.W. Brumm and H.J. Grabke: Corros. Sci. Vol. 34 (1993), p.547.

[24] J. Angenete and K. Stiller: Oxid. Met. Vol. 60 (2003), p.83.

[25] S. Sarioglu, J.R. Blachere, F.S. Pettit, G.H. Meier, J.L. Smialek and C. Mennicke: Mater. Sci. Forum Vol. 251-254 (1997), p.405.

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

[27] C. Mennicke, E. Schumann, M. Rühle, R.J. Hussey, G.I. Sproule and M.J. Graham: Oxid. Met. Vol. 49 (1998), p.455.

DOI: https://doi.org/10.1023/a:1018803113093

[28] V.K. Tolpygo and D.R. Clarke: Materials in High Temperature Vol. 1/2 (2000), p.59.

[29] D.R. Clarke: Current Opinion in Solid State and Materials Science Vol. 6 (2002), p.237.

[30] J. Angenete, K. Stiller and V. Langer: Oxid. Met. Vol. 60 (2003), p.47.