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Tribological Properties of AlSi11-SiCp Composite Castings Produced by Pressure Die Casting Method

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The measurement results concerning the abrasive wear of AlSi11-SiC particles composites are presented in paper. The method of preparing a composite slurry composed of AlSi11 alloy matrix and 10, 20% vol.% of SiC particles, as well as the method of its high-pressure die casting was described. Composite slurry was injected into metal mould of cold chamber pressure die cast machine and castings were produced at various values of the piston velocity in the second stage of injection, diverse intensification pressure values, and various injection gate width values. Very good uniform arrangement of SiC particles in volume composite matrix was observed and these results were publicated early in this journal. The kinetics of abrasive wear and correlation with SiC particles arrangement in composite matrix were presented. Better wear resistance of composite was observed in comparison with aluminium alloy. Very strong linear correlation between abrasive wear and particle arrangement was observed. The conclusion gives the analysis and the interpretation of the obtained results.
Rocznik
Strony
37--42
Opis fizyczny
Bibliogr. 13 poz., fot., rys., tab.
Twórcy
autor
  • Department of Foundry, Częstochowa University of Technology, Armii Krajowej 19, 42-200 Częstochowa, Poland
autor
  • Department of Foundry, Częstochowa University of Technology, Armii Krajowej 19, 42-200 Częstochowa, Poland
Bibliografia
  • [1] Konopka, Z. (2011). Metal cast composites. Częstochowa: Ed. Częstochowa University of Technology.
  • [2] Ashby, M.F., Jones, D.R.H. (1998). Engineering Materials. Properties and Applications. Warsaw: WNT.
  • [3] Konopka, Z. (2008). Gravity and pressure die casting of Al alloy matrix composites with SiC and graphite particles. Częstochowa: Ed. Częstochowa University of Technology.
  • [4] Clyne, T.W., Withers, P.J. (1993). An Introduction to Metal Matrix Composites. Cambridge UK: Cambridge University Press.
  • [5] Sato, A. & Mehrabian, R. (1976). Aluminum matrix composites: Fabrication and properties. Metallurgical Transaction B. 7(3), 443-451.
  • [6] Deusi, R.L., Subramanian, C. & Yellup, J.M. (1997). Dry Sliping Wear of Aluminium Composites. Composites Science and Technology. 57(4), 415-433.
  • [7] Konopka, Z., Cisowska-Łągiewka, M., Zyska, A. (2005). Tribological properties of AK9-Pb composite. In: VI International Scientific Session. TU Częstochowa, 161-164.
  • [8] Mortensen, A. (1990). Fabrication of Particulate Reinf. Metal Composites. In ASM Conference. 17–29 September 1990 (pp. 271). Montreal: Elsevier.
  • [9] Konopka, Z., Braszczyński, J., Kulej, W. (1998). Patent P.307036, Poland.
  • [10] Konopka, Z. (2000). Composite Chips Production and Properties for Vibratory and Surface Finishing. In T.W. Clyne, F. Simancik (Eds.), Metal Matrix Composites and Metallic Foams. (pp. 243-247). Michigan: Wiley-VCH.
  • [11] Hosking, F.M., Portillo, F.F., Wunderlin, R. & Mehrabian, R. (1982). Composites of aluminium alloys: fabrication and wear behavior. Journal of Metals. 17(2), 477-498.
  • [12] Konopka, Z. (1995). Pressure Die Cast Fibre Reinforced Al-Si Alloy Matrix Composites. In Euromat European Conference on Advanced Materials and Processes, 25-28 September 1995 (pp. 667-670). Padova-Milano, Italy: Associazione Italiana di Metallurgia.
  • [13] Pasieka, A. & Konopka, Z. (2013). The influence of pressure die casting parameters on distribution of reinforcing particles in the AlSi11/10% SiC composite. Archives of Foundry Engineering. 13(2), 64-67.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3b991e72-c028-4857-b7b6-4576d6849359
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