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Metal-metal Cast Composites

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Microstructure of experimental AZ91 magnesium matrix composite with Ti6Al4V particles is presented. Composite were fabricated by casting method. The obtained experimental composite exhibited uniform distribution of Ti6Al4V particles within the matrix alloy. Neither clusters of particles nor any new phases creating during component reactions are observed.
Rocznik
Strony
110--113
Opis fizyczny
Bibliogr. 14 poz., il., rys., wykr.
Twórcy
  • Czestochowa University of Technology, Institute of Materials Engineering, Al. Armii Krajowej 19, 42-200 Czestochowa, Poland
  • Czestochowa University of Technology, Institute of Materials Engineering, Al. Armii Krajowej 19, 42-200 Czestochowa, Poland
Bibliografia
  • [1] Mordike, B.L. & Ebert, T. (2001). Magnesium properties applications-potential. Materials Science and Engineering A. 302, 37-45.
  • [2] Braszczyńska, K.N, Zyska, A. & Braszczyński, J. (2003). Selection of the matrix composition in designing composites on the magnesium matrix alloys reinforced with SiC particles. Kompozyty (Composites). 3(8), 253-259.
  • [3] Hai, Z.Y. & Xing, Y.L. (2004). Review of recent studies in magnesium matrix composites. Journal of Materials Science. 39, 6153-6171.
  • [1] Long, M. & Rack, H.J. (1998). Titanium alloys in total joint replacement – a materials science perspective. Biomaterials. 19, 1621-1639.
  • [2] Guden, M., Celik, E., Akar, E. & Cetiner, S. (2005). Compression testing of sintered Ti6Al4V powder compact for biomedical applications. Materials Characterization. 54, 399-408.
  • [3] Umeda, J., Kawakami, M., Kondoh, K., Ayman, E.S. & Imai, H. (2010). Microstructural and mechanical properties of titanium particulate reinforced magnesium composite materials. Materials Chemistry and Physics. 123, 649-657.
  • [4] Lu, L., Lai, M.O. & Froyen, L. (2005). Effects of mechanical milling on the properties of Mg-10.3% Ti and Mg-5% Al-10.3% Ti metal-metal composite. Journal of Alloys and Compounds. 387, 260-264.
  • [5] Yang, Z.R., Wang, S.Q., Gao, M.J., Zhao, Y.T., Chen, K.M. & Cui, X.H. (2008). A new-developed magnesium matrix composite by reactive sintering. Composites. 39(A), 1427-1432.
  • [6] Ye, H. Z. & Liu, X. Y. (2005). Microstructure and tensile properties of Ti6Al4V/AM60B magnesium matrix composite. Journal of Alloys and Compounds. 402, 162-169.
  • [7] Olszówka-Myalska, A., Przeliorz, R., Rzychoń, T. & Misiowiec, M. (2012). Microstructure of Mg-Ti-Al composite hot pressed at different temperature. Solid State Phenomena. 191, 199-207.
  • [8] Raghunath, B.K., Karthikeyan, R., Ganesan, G. & Gupta, M. (2008). An investigation of hot deformation response of particulate-reinforced magnesium + 9% titanium composite. Materials and Design. 29, 622-627.
  • [9] Lu L., Lai M.O, Toh Y.H., Froyen L. (2002). Structure and properties of Mg–Al–Ti–B alloys synthesized via mechanical alloying. Materials Science and Engineering. A334, 163-172.
  • [10] Perez, P., Garces, G. & Adeva, P. (2004). Mechanical properties of a Mg–10 (vol.%)Ti composite. Composites Science and Technology. 64, 145-151.
  • [11] Hassan, S.F. & Gupta, M. (2002). Development of ductile magnesium composite materials using titanium as reinforcement. Journal of Alloys and Compounds. 345, 246-251.
Uwagi
PL
Bibliografia błędnie ponumerowana.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c5096c40-73ba-4b16-9c94-815f0949dc17
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