On the Development and the Oxidation of Novel Ni-Cr and Ni-Al Nanocoatings by Composite Electrodeposition


Article Preview



Materials Science Forum (Volumes 461-464)

Edited by:

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




X. Peng et al., "On the Development and the Oxidation of Novel Ni-Cr and Ni-Al Nanocoatings by Composite Electrodeposition", Materials Science Forum, Vols. 461-464, pp. 409-416, 2004

Online since:

August 2004




[1] R.L. Samuel and N.A. Lockington: Met. Treat. Drop Forging Vol. 18 9 (1951), p.354.

[2] A.H. Sully and E.A. Brandes: Chromium, 2nd edn. Chap. 7, (Butterworths, London, 1967).

[3] G.W. Goward, D.H. Boone and C. S. Ginnins: Trans ASM Vol. 60 (1967), p.228.

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

[5] B.K. Gupta and L.L. Seigle: Thin Solid Films Vol. 73 (1980), p.365.

[6] J.R. Nicholls, P. Hancock and L.H. Al-Yasiri: Mater. Sci. Technol. Vol. 5 (1989), p.799.

[7] F. Wang and H. Lou: Mater Sci Eng. Vol. A129 (1990), p.279.

[8] H. Lou, S. Zhu, F. Wang and W. Wu: Oxid. Met. Vol 43 (1995), p.317.

[9] C.S. Giggins and F.S. Pettit: Trans. TMS-AIME Vol. 245 (1969), p.2509.

[10] M.D. Mertz: Met. Trans. Vol. 10A (1979), p.71.

[11] C. Wagner: Z. Elektrochem. Vol. 63 (1959), p.772.

[12] X. Peng and F. Wang: Corros Sci. Vol. 45 (2003), p.2293.

[13] Z. Liu, W. Gao, K. Dahm and F. Wang: Acta. Mater. Vol 46 (1998), p.39.

[14] G. Chen and H. Lou: Corros. Rew. Vol. 18 (2000), p.195.

[15] A. M. Elsherik and U. Erb: J. Mater. Sci. Vol 30 (1995), p.5743.

[16] C. Cheung, F. Djuande, U. Erb and G. Palumbo: Nanostruct. Mater. Vol. 5 (1995), p.513.

[17] M. Thuvander, M. Abraham, A. Cerezo and G. D. W. Smith: Mater. Sci. Tech. Vol. 17 (2001), p.961.

[18] D.F. Susan, A.R. Marder and K. Barmak: Thin Solid Films Vol. 307 (1997), p.133.

[19] D.F. Susan and A.R. Marder: Oxid. Met. Vol. 57 (2002), p.159.

[20] X. Gan: MS thesis, Institute of Corrosion and Protection of Metals, CAS. (1992).

[21] R. Bazzard, P.J. Boden: Trans. IMF. Vol. 50 (1972), p.63.

[22] X. Peng, D. Ping, T. Li and W. Wu: J. Electrochem. Soc. Vol. 145 (1998), p.389.

[23] X. Peng, T. Li and W. Wu: Oxid. Met. Vol. 51 (1999), p.291.

[24] A. Ul-hamid: Mater. Chem. Phys. Vol. 80 (2003), p.135.

[25] G.C. Rybicki and J.L. Smialek: Oxid. Met. Vol. 31(1989), p.275.

[26] R. Darolia: J. Met. Vol. 43 (1991), p.44.

[27] X. Peng, T. Li and W.P. Pan: Scripta Mater. Vol. 44 (2001), p.1033.

[28] R.F. Varadi and K. Ettre: J. Electrochem. Soc. Vol. 109 (1962), p.292.

[29] N. Gugliemi: Trans. IMF. Vol. 50 (1972), p.1009.

[30] Y. Zhou, X. Peng and F. Wang: unpublished work.

[31] D.P. Moon: Oxid. Met. Vol. 31(1989), p.71.

[32] C.K. Kim and L.W. Hobbs: Oxid. Met. Vol. 47(1997), p.69.

[33] H. Kyung and C.K. Kim: Mater. Sci. Eng. Vol B76 (2000), p.173.

[34] Y. Zhou, X. Peng and F. Wang: manuscript in progress.