Effect of nanometric oxide dispersion on creep resistance of ODS-FeAl prepared by mechanical alloying

Intermetallics

Volumn 4, Issue 4, 1996, Pages 299-307

  Wolski, K ^a   Thevenot F ^a   Le Coze, J ^a  

^a CENTRE SMS   (France)

Author keywords

A. iron aluminides; B. dispersion strengthening; Based on FeAl; C. mechanical alloying; Creep

Indexed keywords

COMPRESSION TESTING; CREEP; DISPERSION HARDENING; IRON ALLOYS; MECHANICAL ALLOYING; NANOSTRUCTURED MATERIALS; OXIDATION; POWDER METALS; SINTERING; THERMODYNAMIC STABILITY;

NANOMETRIC CERAMIC DISPERSION; OPTIMIZED SINTERING CONDITIONS; OXIDE DISPERSION STRENGTHENED IRON ALUMINIDES;

INTERMETALLICS;

EID: 0029749072     PISSN: 09669795     EISSN: None     Source Type: Journal    
DOI: 10.1016/0966-9795(95)00053-4     Document Type: Article

References (25)

1. Dimiduk, D. M. & Miracle, D. B. High Temperature Ordered Intermetallic Alloys III, eds C. T. Liu, A. I. Taub, N. S. Stoloff & C. C. Koch, MRS, 133 1989 pp. 348-59.
2. Stoloff, N. S. Int. Mat. Rev. 29 1984 123-35.
3. Crimp, M. A., Vedula, K. M. & Gaydosh, D. J. High Temperature Ordered Intermetallic Alloys II, eds N. S. Stoloff C. C. Koch, C. T. Liu, & O. Izumi, MRS, 81 1987, pp. 499-504.
4. Liu, C. T. & George, E. P., High Temperature Ordered Intermetallic Alloys IV, eds. L. A. Johnson & D. P. Pope, MRS, 213 1991, pp. 527-32.
5. Liu, C. T., Lee, E. H. & Mc Kamey, C. G. Scr. Met. 23 (1989) 875-80.
6. Stoloff, N. S. Met Trans. A., 24A (1993) 561-7.
7. Moret, F., communication during CEASI (Concerted European Action on Structural Intermetallics, presided by M. H. Loretto) meeting, FeAl aluminides, 24-25 March 1995, Milan, Italy, unpublished research.
8. Stephens, J. R. & Nathal, M. V. NASA Technical Memorandum No. 100903.
9. Rudy, M. & Sauthoff, G. Mat. Sci. and Eng., 81 (1986) 525-30.
10. Cahn, R. W. & Haasen, P., (eds), Physical Metallurgy, Elsevier Science Publishers B.V., 1983 pp. 1309-485.
11. Artz, E., Res. Mechanica, 31 (1991) 399-453.
12. Benjamin, J. S. Met Trans., 1A (1970) 2943-51.
13. Benjamin, J. S. & Volin, T. E. Met. Trans., 5A (1974) 1929-34.
14. Morris, D. G. & Morris, M. A., Mat. Sci. Eng., A125 (1990) 97-106.
15. Strothers, S., & Vedula, K., Prog. Powd. Met., 43 (1987) 597-610.
16. Seybolt, A. U., Trans. of the ASM, 59 (1966) 860-75.
17. Morris, M. A. & Morris, D. G. Acta Metall. Mater., 38 (1990) 551-9.
18. Mendiratta, M. G., Ehlers, S. K., Dimiduk, D. M., Kerr, W. R., Mazdiyasni, S. & Lipsitt, H. A. High Temperature Ordered Intermetallic Alloys II, eds N. S. Stoloff, C. C. Koch, C. T. Liu, & O. Izumi, MRS, 81, 1987 pp. 393-404.
19. Wolski, K., Thévenot, F. & Le Coze, J. Influence of nanometric oxide dispersion on creep resistance of ODS FeAl prepared from prealloyed powders. Scripta Mater. et Metall., accepted for publication.
20. Wolski, K., Thévenot, F. & Le Coze, J. Oxide Transformations during hot pressing of in situ oxidised, ball milled FeAl powders. Mater. Sci. Eng., in press.
21. Wolski, K., Le Caër, G., Fillit, R., Thévenot, F. & Le Coze, J., Influence of milling conditions on the FeAl intermetallic formation by mechanical alloying. Mater. Sci. Eng., in press.
22. Wolski, K., Thévenot, F. & Le Coze, J., Control of carbides formation in mechanically alloyed FeAl intermetallic. European Journal of Solid State and Inorganic Chemistry , 32 (1995) 639-648.
23. Wolski, K., Influence de la dispersion de phases céramiques sur la résistance au fluage de I'intermétallique FeAl, PhD thesis, Ecole des Mines de St-Etienne, France, Oct. 1994, number 114TD.
24. Whittenberger, J. D. Mat. Sci. and Eng., 57 (1983) 77-85.
25. Development of High Aluminium Steels Resistant to Wear and to Highly Corrosive Media at High Temperature, Contract BRITE No E-RI.0181.C(CD), EEC project 2038-87.