Strength and thermal stability of Cu-Al2O3 composite obtained by internal oxidation

Revista de Metalurgia (Madrid)

Volumn 46, Issue 6, 2010, Pages 520-529

  Rajkovic V ^a   Bozic D ^a   Devecerski A ^a   Bojanic S ^b   Jovanovic M T ^a  

^a UNIVERSITY OF BELGRADE   (Serbia)

^b UNIVERSIDAD POLITÉCNICA DE MADRID   (Spain)

Author keywords

High temperature properties; Metal matrix composites; Microhardness; Microstructural characterization; Powder processing

Indexed keywords

AL POWDER; ARGON ATMOSPHERES; COMPOSITE COMPACTS; DENSITY MEASUREMENTS; ELECTRICAL CONDUCTIVITY; GRAIN SIZE; HIGH ENERGY MILLING; HIGH THERMAL STABILITY; HIGH-TEMPERATURE EXPOSURE; IN-SITU; METAL MATRIX COMPOSITES; MICRO-STRUCTURAL CHARACTERIZATION; MICROHARDNESS DROPS; MILLED POWDERS; OPTICAL MICROSCOPES; PLANETARY BALL MILL; POWDER PROCESSING; SCANNING ELECTRON MICROSCOPES; THERMAL STABILITY; TRANSMISSION ELECTRON MICROSCOPE; XRD;

ALUMINUM; ARGON; BALL MILLS; COPPER POWDER; ELECTRIC CONDUCTIVITY; ELECTRON MICROSCOPES; GRAIN SIZE AND SHAPE; HIGH ENERGY PHYSICS; HOT PRESSING; INERT GASES; INTERNAL OXIDATION; MICROHARDNESS; MILLING (MACHINING); OXYGEN; POWDERS; SCANNING ELECTRON MICROSCOPY; STRENGTHENING (METAL); THERMODYNAMIC STABILITY; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION; X RAY DIFFRACTION ANALYSIS;

METALLIC MATRIX COMPOSITES;

EID: 79953210370     PISSN: 00348570     EISSN: 19884222     Source Type: Journal    
DOI: 10.3989/revmetalmadrid.1024     Document Type: Article

References (19)

1. V.M. Rajkovic andM.V.Mitkov, Int. J. Powder Metall. 36 (2000) 45-49.
2. V. Rajkovic, D. Bozic and M. T. Jovanovic, J.Mater. Process. Technol. 200 (2008) 106-114.
3. M.X. Guo, M.P. Wang, L.F. Cao and R.S. Lei, Mater. Charact. 58 (2007) 928-935.
4. C. Jianyi, W. Mingpu, L. Zhou, W. Janhui., China-EU Forum on Nanosized Technology, Beijin, P.R. China, 2002. Dec, p. 93, http:// www.863.org.cn/ english/Forum/17.doc.
5. L. Guobin, S. Jibing, G. Quanmei andW. Ru, J.Mater. Process. Technol. 170 (2005) 336-340.
6. B. Tian, P. Liu, K. Song, Y. Li, Y. Liu, F. Ren and J. Su, Mater Sci Eng A, 435-436 (2006) 705-710.
7. Z. Hussain and L. C. Kit,.Mater. Des. 29 (2008) 1311-1315.
8. M.L.Mehta, T.K.A. Ghudbban,M.S.B. Eltalhi and N.E.A. ElrabIy, PowderMet. Inter. 22(1990) 15-18.
9. A.Mukhtar, D L Zhang, C Kong and P.Munroe, 2009 IOP Conf. Series: Mater. Sci. Eng. 4 (2009) 012005, doi: 10.1088/1757-899X/4/1/ 012005.
10. H.P. Klug and L.E. Alexander, X-Ray Diffraction Procedures Ed., J.Wiley, New York, USA, 1959, pp. 440-448.
11. B.Lonnberg, J.Mat. Sci, 29 (1994) 3224-3230.
12. K.G.Williamson and H.W. HallWH, ActaMet. 1 (1953) 22-31.
13. G. Ziegler, PowderMet. Inter. 10 (1978) 70-73.
14. D. Maurice and T.H. Courtney, Metall. Mater. Trans. A, 26 (1995) 2.437-2.444.
15. J.S. Benjamin,Met. Trans. 1 (1970) 2943-2951.
16. A. Nadkarani, ASMHandbook (vol. 7).Metals Park, OH, ASMInternational, 1990. 869-873.
17. O.Preston and N.J. Grant, Trans. Metall. Soc. AIME 221 (1961) 164-173.
18. N.J. Grant, A. Lee and M. Lou, Proc. of Conf. High Conductivity Copper and Aluminium Alloys, Warrendale, PA USA, The Metallurgical Society of AIME, 1984, pp. 103-111.
19. E. Botcharova, J. Freudenberg and L. Schultz, Acta Mater. 54 (2006) 3333-3341.