Grain Boundary Diffusion and Segregation in Nanolayered Materials

[4] D. L. Beke: General Introduction in “Diffusion in Semiconductors and Non-Metallic Solids” (Landolt-Bornstein, New Series, Berlin, Vol 33-B1, ed. Beke D.L., 1998, p.1).

Google Scholar

[5] L. G. Harrison: Trans. Faraday Soc. Vol. 57 (1961), p.1191.

Google Scholar

[6] E. W. Hart: Acta Metall. Vol. 5 (1957), p.597.

Google Scholar

[7] Z. Erdelyi, D. L. Beke, P. Nemes and G. A. Langer: Phil. Mag. A Vol. 79 (1999), pp.1757-18 Title of Publication (to be inserted by the publisher).

Google Scholar

[8] D. L. Beke, A. Dumas, A. Csik, G. A. Langer, M. Kis-Varga, L. Daroczi and Z. Erdelyi : Functional Materials Vol. 6 (1999), p.539.

Google Scholar

[9] A. L. Greer and D. L. Beke: to be published J. of Non-Equilibrium Processing.

Google Scholar

[10] E. Emeric, C. Bergman, G. Clugnet, P. Gas and M. Audier: Phil. Mag. Lett. Vol. 78 (1998), p.77.

Google Scholar

[11] I.V. Belova and G. E. Murch: Defect and Diffusion Forum Vol. 194-199 (2001), p.1223.

Google Scholar

[12] Yu. M. Mishin and I.M. Razumovskii: Scripta Metall. Vol. 25 (1991), p.1375.

Google Scholar

[13] Yu. M. Mishin and I.M. Razumovskii: Acta Metall. Mater. Vol. 40 (1992), p.597.

Google Scholar

[14] Yu. M. Mishin and Ch. Herzig: Nanostructured Materials Vol. 6 (1995), p.859.

Google Scholar

[15] J. W. Cahn and R. W. Balluffi: Scripta Metall. Vol. 13 (1979), p.499.

Google Scholar

[16] Yu. M. Mishin and I.M. Razumovskii: Acta Metall. Mater. Vol. 40 (1992), p.839.

Google Scholar

[17] V. B. Marvin: Scripta Metall. Mater. Vol. 33 (1995), p.901.

Google Scholar

[18] A. M. Glaeser and J. M. Evans: Acta Metall. Vol. 34 (1986), p.1545.

Google Scholar

[19] J. C. Fisher: J. Appl. Phys. Vol. 22 (1951), p.74.

Google Scholar

[20] F. Guthoff , Yu. M. Mishin and Ch. Herzig: Z. Metallk. Vol. 84 (1993), p.584.

Google Scholar

[21] M. Koppers , Yu. M. Mishin and Ch. Herzig: Acta Metall. Mater. Vol. 42 (1994), p.2859.

Google Scholar

[22] Zs. Tokei, Z. Erdelyi, C. Girardeaux and A. Rolland: Phil. Mag. A Vol. 80 (2000), p.1075.

Google Scholar

[23] Yu. M. Mishin, Ch. Herzig, J. Bernardini and W. Gust: Int. Materials Reviews Vol. 42 (1997), p.155.

Google Scholar

[24] J. Bernardini and P. Gas: Defect and Diffusion Forum Vol. 95-98 (1993), p.943.

Google Scholar

[25] J. Bernardini: J. Phys. IV Vol. 9 (1999), p.155.

Google Scholar

[26] G. B. Gibbs: Phys. Stat. Sol. Vol. 16 (1966), p. K27.

Google Scholar

[27] G. Martin and B. Perraillon: Grain Boundary Structure and Kinetics (R. W. Balluffi ed, Amer. Soc. Metals Park, OH p.239, 1980).

Google Scholar

[28] B. S. Bokstein, V. E. Fradkov and D. L. Beke: Phil. Mag. A Vol. 65 (1992), p.277.

Google Scholar

[29] Yu. M. Mishin and Ch. Herzig: J Appl. Phys. Vol. 76 (1993), p.8206.

Google Scholar

[30] R. T. O. Whipple: Phil. Mag. Vol. 45 (1954), p.1225.

Google Scholar

[31] T. Suzuoka : Trans. Japan. Inst. Metals Vol. 2 (1961), p.25.

Google Scholar

[32] J. Bernardini, Zs. Tokei and D. L. Beke: Phil. Mag. A Vol. 73 (1996), p.237.

Google Scholar

[33] B. S. Bokstein, A. S. Ostrovksy and A. O. Rodin: Phil. Mag. A Vol. 72 (1995), p.829.

Google Scholar

[34] D. L. Beke, I. Godeny, G. Erdelyi and F. J. Kedves: Phil. Mag. A Vol. 56 (1987), p.659.

Google Scholar

[35] Cs. Cserhati, I. A. Szabo and D. L. Beke : J. of Appl. Phys. Vol. 83 (1998), p.3021.

Google Scholar

[36] J. Weissmüller: J. Mater. Res. Vol. 9 (1994), p.4.

Google Scholar

[37] B. Färber, E. Cadel, A; Menand, G; Schmitz and R. Kirchheim: Acta Mater. Vol 48 (2000), p.789.

Google Scholar

[38] K. Boylan, D. Ostrander, U. Erb, G. Palumbo and K. T. Aust: Script. Metall. Mater. Vol. 25 (1991), p.2711.

Google Scholar

[39] S. C. Mehta, D. A. Smith and U. Erb: Mater. Sci. Engng. A Vol. 204 (1995), p.227.

Google Scholar

[40] F. Spaepen: Acta Materilia Vol. 48 (2000), p.31.

Google Scholar

[41] Defect and Diffusion Forum, Diffusion, Segregation and Stresses in materials (Edited by B. S. Bokstein and B. B. Straumal Scitec Publications Ltd, Vol. 216-217, 2003).

Google Scholar

[42] A. S. Ostrovsky and B. S. Bokstein: Appl. Surf. Sci. Vol. 175-176 (2001), p.312.

Google Scholar

[43] N. Balandina, B.S. Bokstein and A. S. Ostrovsky: Def. and Dif. Forum Vol. 129-130 (1996), p.151.

Google Scholar

[44] N. Balandina, B.S. Bokstein and A. S. Ostrovsky: Def. and Dif. Forum Vol. 143-147 (1997), p.1499.

Google Scholar

[45] H. S. Wildman, J. K. Howard and P. S. Ho: J. Vac. Sci. Technol. Vol. 12 (1975), p.75.

Google Scholar

[46] H. Gleiter: Phys. Stat. Sol. B Vol. 172 (1992), 41.

Google Scholar

[47] E. Gaffet, S. Begin-Colin and O. Tillement: Matériaux (Innovation 128, Tech. Tendances,S. A. Paris 1998).

Google Scholar

[48] S. M. Klotsman: Defect Diff. Forum Vol. 99-100 (1993), p.25.

Google Scholar

[49] R. W. Siegel: Materials Interfaces (D. Wolf and S. Yip Eds., Chapman and Hall, London 1992, p.431).

Google Scholar

[50] D. L. Beke: Defect and Diffusion Forum Vol. 103 (1995), p.51.

Google Scholar

[51] H. J. Hofler, H. Hahn and R. S. Averback: Defect and Diffusion Forum Vol. 75 (1991), p.195.

Google Scholar

[52] R. Z. Valiev, R. K. Islamgaliev and I. V. Aleksandrov: Prog. Mater. Sci. Vol. 45 (2000), p.102.

Google Scholar

[53] Yu. R. Kolobov, G. P. Grabovotskaya, M. B. Ivanov, R.Z. Valiev and T. C. Love: Investigations and Applications of Severe Plastic Deformation ( NATO Science Series 80, ed. T. C. Love and R.Z. Valiev, Dordrecht , Kluwer Academic Publishers, 2000, p.261.

Google Scholar

[54] Z. B. Wang, N. B. Tao, W. P. Tong, J. Lu and K. Lu : Acta Materiala Vol. 51 (2003), p.4319.

Google Scholar

[55] Z. Horita, D. J. Smith, M. Furukawa, R. Z. Valiev and T. G. Landon: J. Mater. Res. Vol. 11 (1996), p.1880.

Google Scholar

[56] J. H. Huang, Y. T. Zhu, H. Jiang and T. C Lowe: Acta Mater. Vol 49 (2001), p.1497.

Google Scholar

[57] J. Y. Huang, X. Z. Liao, Y. T. Zhu, F. Zhou and F. J. Lavernia: Phil. Mag. Vol. 83 (2003), p.1407.

Google Scholar

[58] I. A. Ovid’ko and A. G. Sheinerman: Plil. Mag. Vol. 83 (2003), p.1551.

Google Scholar

[59] Yu. R. Kolobov, G. P. Grabovotskaya, M. B. Ivanov, A. P Zhilyaev and R. Z. Valiev: Scripta Mater. Vol. 44 (2001), p.873.

Google Scholar

[60] H. J. Fecht, E. Hellstern, Z. Fu and W. L. Johnson: Metall. Trans. A Vol. 21 (1990) p.2333.

Google Scholar

[61] B. Fultz and H. N. Frase: Hyperfine Interactions Vol. 130 (2000), p.81.

Google Scholar

[62] J. C. M. Hwang, J. D. Pan and R. W. Balluffi: J. Appl. Phys. Vol. 50 (1979), p.1339.

Google Scholar

[63] Z. Erdelyi, Ch. Girardeaux, G. A Langer, D. L. Beke, A. Rolland and J. Bernardini: J. Appl. Phys. Vol. 89 (2001), pp.3971-20 Title of Publication (to be inserted by the publisher).

Google Scholar

[64] M. G. Barthès and A. Rolland: Thin Solid Film Vol. 76 (1981), p.45.

Google Scholar

[65] M. S. Seah and W. A. Dench: Surface and Interface analysis Vol. 1 (1981), p.1.

Google Scholar

[66] J. Eugène: Thesis Marseilles (1989).

Google Scholar

[67] S. W. Bronner and P. Wynblatt: J. Matter. Res. Vol. 1 (1986), p.646 |68] W. H. Qi and M. P. Wang: Physica B Vol. 334 (2003), p.432.

Google Scholar

[69] L. Larikov, S. Sidorenko, N. Deyneka and Litvinova: Mem. Noe. Mex., Vol. 2 (1999), p.21.

Google Scholar

[70] W. Losch and P. M. Jardim: Scripta Mater. Vol. 38 (1998), p.1857.

Google Scholar

[71] T. Fujita, Z. Horita and T. G. Langdon: Phil. Mag. A Vol. 82 (2002), p.2249.

Google Scholar

[72] H. Tanimoto, L. Pasquini, R. Prummer, H. Kronmuller and H. E. Schaefer: Scripta Mater. Vol. 42 (2000), p.961.

Google Scholar

[73] R. Wurschum, K. Reimann, S. Grub, A. Kubler, P. Scharwaechter, W. Frank, O. Kruse, H. D. Carstanjen and H. E. Schaeffer: Phil. Mag. B Vol. 76 (1997), p.407.

Google Scholar

[74] J. A. Eastman, M. R. Fitzsimmons, L. J. hompson, A.S. Lawson and R. A. Robinson: Nanostructured Mater. Vol. 1 (1992), p.465.

Google Scholar

[75] Y. K. Huang, A. A. Menovsky and F. R. De Boer: Nanostructured Mater. Vol. 2 (1993), p.587.

Google Scholar

[76] H. Kuwano, H. Ouyang and B Fultz: Nanostructured Mater. Vol. 1 (1992), p.143.

Google Scholar

[77] B. Fultz, H. Kuwano and H. Ouyang: J. Appl. Phys. Vol. 77 (1995), p.3458.

Google Scholar