Residual Gas Effect on the Structural and Magnetic Properties of Fe60Cr40 Alloy Synthesised by Mechanical Alloying

摘要:

文章预览

信息:

编辑:

A.R. Yavari, A. Inoue, D. Morris and R. Schulz

页数:

37-46

引用:

A. Fnidiki et al., "Residual Gas Effect on the Structural and Magnetic Properties of Fe60Cr40 Alloy Synthesised by Mechanical Alloying", Journal of Metastable and Nanocrystalline Materials, Vol. 12, pp. 37-46, 2002

上线时间:

August 2002

输出:

价格:

$38.00

[1] C. Suryanarayana, Mechanical Alloying and Milling, in Progress in Materials Science, 46, (2001) 1.

[2] E. Ma, E. and M. Atzmon, Materials Chem. Phys., 39, (1995) 249.

[3] C. C. Koch, Materials Science and Technology: a Comprehensive Treatment, ed R.W. Cahn, (New York: VCH), 15, (1991) 195.

[4] G. Le Caer, Ann. Chim., 22, (1997) 341.

[5] J. S. Benjamin and T. E. Volin, Metall Trans., 5, (1974) (1929).

[6] H. J. Fecht, Nanostruct. Mater., 1, (1992) 125.

[7] R. B. Schwartz, Mater Sci Forum, 26-272, (1998) 665.

[8] M. Abdellaoui and E. Gaffet, Acta Metall Mater, 43, (1995) 1087.

[9] N. Burgio, A. Iasonna, M. Magini, S. Marttelli and F. Padella, Nuovo Cimento, 13, (1991) 459.

[10] F. Delogu, M. Monagheddu, G. Mulas, L. Schiffini and G. Cocco, J. Non Cryst. Solids, 232, (1998) 383.

DOI: https://doi.org/10.1016/s0022-3093(98)00550-x

[11] A. Iasonna and M. Magini, Acta Mater, 44, (1998) 1109.

[12] Y. Chen, R. Le Hazif and G. Mattin, Solid State Phenom., 23, (1992) 271.

[13] T. Koyano, T. Takizawa, T. Kukunaga, U. Mizutani et al. J. Appl. Phys., 73, (1993) 429.

[14] G. Le Caër, T. Ziller, P. Delcroix, J.P. Morniroli, Mössbauer Spectroscopy in Materials Science (msms98), Senec, Slovakia - sept 7-11 (1998).

[15] M. Murugesan, H. Kuwano, IEEE Trans. On Mag., 35, (1999) 3499.

[16] A. Otmani, B. Bouzabata, A. Djekoun, S. Alleg, Ann. Chim. Sci. Mat., 22, (1997) 201.

[17] V.A. Rodriguez, E. Baggio-Saitovitch, S.K. Larica, J.C. de Lima, Hyperfine Int., 69, (1991) 721.

[18] V.A. Rodriguez, S.K. Xia, E. Baggio-Saitovitch, S.K. Larica, Hyperfine Int., 83, (1994) 271.

[19] M. Zhu, J. H. Ahn, X. Z. Che, B. L. Li, Z. X. Li, J. of Mat. Science Lett., 17, (1998) 445.

[20] Y. Ogino, S. Murayama and Y. Yamazaki, J. Less-Common Met, 168, (1991) 221.

[21] T. Fukunaga, N. Kuroda, C. H. Lee, T. Koyano and U. Mizutani, J. Non-Cryst. Solids, 176, (1994) 98.

[22] T. Fukunaga, E. Ishikawa, T. Koyano and U. Mizutani, Physica B, 231/214, (1995) 526.

[23] K. Aoki, A. Memezawa and T. Masumoto, Appl. Phys. Let, 61, (1992) 1037.

[24] T. Koyano, T. Takizawa, T. Fukunaga and U. Mizutani, Jpn. J. Appl. Phys., 32, (1993) L1524.

[25] C. Lemoine, A. Fnidiki, D. Lemarchand and J. Teillet, J. Phys: Condens. Matter, 11, (1999) 8341.

[26] G. Le Caer and P. Delcroix, Nanostruct. Mater, 7, (1996) 127.

[27] X. Ogino, K. Namba and T. Yamasaki, ISIJ International, 33, (1993) 420.

[28] J. Rrawers, D. Cook and T. Kim, Phil Mag. A, 78, (1998) 965.

[29] C. E. Johnson, M. S. Ridout and T. E. Cranshaw, Proc. Phys. Soc., 81, (1963) 1079.

[30] B. K. Sumiyama, N. Ohshima and Y. Nakamura, Transactions of the Japon Institute of Metals, 28, (1987) 699.

[31] W. B. Pearson: A Handbook of Lattice Spacings and Structures of Metals and Alloys, Pergamon Press, New York (1958) 532.

[32] B. F. O. Costa and S. M. Dubiel, Phys. Stat. Sol, 139, (1993) 83.

[33] S.M. Dubiel and J. Zukrowski, J. Magn. Magn. Mater, 23, (1981) 214.

[34] H. Yang and H. Bakker, Mat. Science and Eng., A181/A182, (1994) 1207.

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