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Purpose: The purpose of this paper is the study of the effect of equal channel angular pressing (ECAP) on the mechanical properties of the Mg-Al2O3 nanocomposites. Magnesium and its alloys have excellent physical and mechanical properties for a number of applications. In particular its high strength: weight ratio makes it an ideal metal for automotive and aerospace applications, where weight reduction is of significant concern. Design/methodology/approach: Severe plastic deformation is a useful methodology to refine the grain size to the submicron or even nanometer size Findings: In the present work the influence of number of passes of ECAP by grain size, evolution of microstructure, mechanical properties and fracture of magnesium composites with different volume fraction of Al2O3 particles has been investigated by means of optical microscopy, tensile tests and scanning electron microscopy. Research limitations/implications: It has been found, that the grain size decreases with increasing number of passes. The mechanical properties of magnesium alloys are significantly influenced by the testing temperature leading to a decrease in the strength, by reinforcement and/or grain reinforcement leading to an increase in the strength. Originality/value: From previous studies, it was found that the MMCs using different size particles and different ECAP passes can improved the mechanical properties. But the research of Mg MMCs reinforcement with different wt.% nanoscale Al2O3 particles is not adequate.
Wydawca
Rocznik
Tom
Strony
10--17
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Institute of Materials Research, Slovak Academy of Sciences, Watsonova 47, Košice, Slovakia
autor
- Institute of Materials Research, Slovak Academy of Sciences, Watsonova 47, Košice, Slovakia
autor
- Institute of Materials Research, Slovak Academy of Sciences, Watsonova 47, Košice, Slovakia
autor
- Institute of Materials & Machine Mechanics, Slovak Academy of Sciences, Račianska 75, 831 02 Bratislava 3, Slovakia
autor
Bibliografia
- [1] V.I. Semenov, Y.R. Jang, S.J. Huang, Y.Zh. Dao, S.J. Hwang, L.Sh. Shuster, S.V. Chertovskikh, P.Ch. Lin, Tribological properties of the AZ91D magnesium alloy hardened with silicon carbide and by severe plastic deformation, Journal Friction and Wear 30 (2009) 194-198.
- [2] S.M. Masoudpanah, R. Mahmudi, The microstructure, tensile, and shear deformation behavior of an AZ31 magnesium alloy after extrusion and equal channel angular pressing, Materials and Design 31 (2010) 3512-3517.
- [3] Z. Trojanova, M. Milnera, Microstructure and deformation behaviour of an AX61 magnesium alloy, Kovové materiály 44 (2006) 75-79.
- [4] P. Luka, Z. Trojanová, Deformation and damping behaviours of microcrystalline Mg reinforced with ceramic nanoparticles, Kovové materiály 44 (2006) 243-249.
- [5] S.F. Hassan, M. Gupta, Development of a novel magnesium/nickel composite with improved mechanical properties, Journal of Alloys and Compounds 335 (2002) 10-15.
- [6] Y. Li, Y.J. Lin, Y.H. Xiong, J.M. Schoenung, E.J. Lavernia, Extended twinning phenomena in Al– 4%Mg alloys/B4C nanocomposite, Scripta Materialia 64 (2011) 133-136.
- [7] T. Laha, S. Kuchibhatia, S. Seal, W. Li, A. Agarwal, Interfacial phenomena in thermally sprayed multiwalled carbon nanotube reinforced aluminum nanocomposite, Acta Materialia 55 (2007) 1059-1066.
- [8] S.F. Hassan, M. Gupta, Development of ductile magnesium composite materials using titanium as reinforcement, Journal of Alloys and Compounds 345 (2002) 246-251.
- [9] S. Kawamori, T. Machida, Materials Transactions, Silicon Carbide Dispersion Strengthening of Magnesium Using Mechanical Alloying Method, 49 (2008) 304-309.
- [10] K. Nakashima, Z. Horita, M. Nemoto, Development of a multi-pass facility for equal-channel angular pressing to high total strains, Materials Science and Engineering A 281 (2000) 82-87
- [11] R.Z. Valiev, R.K. Islamgaliev, I.V. Alexandrov, Bulk nanostructured materials from severe plastic deformation, Progress in Materials Science45 (2000) 103-189.
- [12] M. Kawasaki, Y. Huang, C. Xu, M. Furukawa, Z. Horita, T.G. Langdon, A quantitative study of cavity development in the tensile testing of an aluminum metal matrix composite processed by equal-channel angular pressing, Materials Science and Engineering A 410 -411 (2005) 402-407
- [13] I. Sabirov, O. Kolednik, R.Z. Valiev, R. Pippan, Equal channel angular pressing of metal matrix composites: Effect on particle distribution and fracture toughness, Acta Materialia 53 (2005) 4919-4930.
- [14] P.C. Lin, S.J. Huang, P.S. Hong, Formation of magnesium metal matrix composites Al2O3P/AZ91D and their mechanical properties after heat treatment, Acta Metallurgica Slovaca 16 (2010) 237-245
- [15] M. Besterci , J. Ivan, J. Huang, O. Velgosová, B. Lin, P. Hvizdoš, Damage mechanism of AZ61-F Mg alloy with nano-Al2O3 particles, Kovové materiály 49 (2011) 451-455
- [16] Y. Miyahara, Z. Horita, T.G. Langdon, Exceptional superplasticity in an AZ61 magnesium alloy processed by extrusion and ECAP, Materials Science and Engineering A 420 (2006) 240-244.
- [17] J. Jiang, Y. Wang, J. Qu, Microstructure and mechanical properties of AZ61 alloys with large cross-sectional size fabricated by multi-pass ECAP, Materials Science and Engineering A 560 (2013) 473-480.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f273613f-90c5-49c2-a6ee-ca9b9fbbfe23