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Purpose: In the investigations, two types of material were taken for the cooperation with the composite Al + intermetallic phases. One of the materials were composites based on the AlMg12Si alloy, reinforced with ceramic particles (SiC, Al2O3), and the other was spheroidal cast iron. Design/methodology/approach: For the investigations of wear under technically dry friction conditions the pin-on-disc measuring system was applied. Findings: It has been shown that Al based composites reinforced with intermetallic phases are characterized by considerable resistance to tribological wear under technically dry friction conditions in a cooperation with composites based on the Al alloy (AlSi12CuNiMg) . The tribological systems in which composites of the Al +intermetallic phases type are used, are characterized by a stable course of the friction coefficient value as a function of friction distance, irrespective of the type of material cooperating with them. Practical implications: In the case of cooperation of Al-Al2O3-Al3Ti-Al3Fe composites with aluminium alloy based composites, one should take into account the changes in friction conditions resulting from plastic deformation of the friction surface of the composite Al + intermetallic phases. Originality/value: Thanks to conducted researches it was stated that there is a possibilty of application of heterophase reinforcement that use the mixture of intermetalic phases as a effective method of aluminium alloys resistance improving the wear in dry sliding conditions.
Wydawca
Rocznik
Tom
Strony
58--62
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
- Department of Alloys and Composite Materials Technology, Faculty of Materials Science and Metallurgy, Silesian University of Technology ul. Krasińskiego 8, 40-019 Katowice, Poland
autor
- Department of Alloys and Composite Materials Technology, Faculty of Materials Science and Metallurgy, Silesian University of Technology ul. Krasińskiego 8, 40-019 Katowice, Poland
autor
- Department of Alloys and Composite Materials Technology, Faculty of Materials Science and Metallurgy, Silesian University of Technology ul. Krasińskiego 8, 40-019 Katowice, Poland
autor
- Department of Alloys and Composite Materials Technology, Faculty of Materials Science and Metallurgy, Silesian University of Technology ul. Krasińskiego 8, 40-019 Katowice, Poland
Bibliografia
- [1] C.F. Feng, L. Froyen: Formation of Al3Ti and Al2O3 from an Al-TiO2 system for preparing in situ aluminium matrix composites, Composites, 2000, Part A, 31, p. 385–390.
- [2] M. Gupta, M.K. Surappa: Processing, microstructure, mechanical properties of Al base metal matrix composites synthesized using casting route, Rev. Engineering Materials, 1995, v. 104–107, pt 1, p. 259–274.
- [3] M.D. Salvador, V. Amigó, N. Martinez, D.J. Busquets: Microstructure and mechanical behaviour of Al–Si–Mg alloys reinforced with Ti–Al intermetallics Journal of Materials Processing Technology Volume: 143-144, Complete, December 20, 2003, pp. 605-61
- [4] H.C. Man, S. Zhang, F.T. Cheng, Y.M. Yue: In situ synthesis of TiC reinforced surface MMC on Al6061 by laser surface alloying Scripta Materialia Volume: 46, Issue: 3, February 1, 2002, pp. 229-234
- [5] X. Wang, A. Jha, R. Brydson: In situ fabrication of Al3Ti particle reinforced aluminium alloy metal–matrix composites Materials Science and Engineering: A Volume: 364, Issue: 1-2, January 15, 2004, pp. 339-345
- [6] J. Śleziona, M. Dyzia, J. Wieczorek: The utilization of suspension method in the process of in situ composites producing in the system aluminium iron-titanium oxide. Founding Archives, Archives of Foundry, 2003, vol. 3, nr 10, p. 163–169.
- [7] J. Śleziona, A. Olszówka-Myalska, B. Formanek: The application of ilmenit in the producing of composites on the intermetalic phases matrix from the system Al-Fe Al-Ti, Materials Engineering, 2003, nr 4-5, p. 188–195, (in polish).
- [8] A. Dolata-Grosz, J. Śleziona, J. Wieczorek, M. Dyzia: Structure and functional quality properties of composites sleeves obtaining by centrifugal casting, Acta Metallurgica Slovaca, 8, 2/2002, pp. 283-288.
- [9] J. Wieczorek, A. Dolata-Grosz, M. Dyzia, J. Śleziona, G. Służałek: Tribological properties of AlSi12CuNiMg- metal matrix composites reinforced with ceramic particles, Junior Euromat02, Lozanna, Szwajcaria,
- [10] A. Dolata-Grosz, J. Śleziona, J. Wieczorek, M. Dyzia: Structure and functional quality properties of composites sleeves obtaining by centrifugal casting, Acta Metallurgica Slovaca, 8, 2/2002, p. 283-288 .
- [11] J. Wieczorek: Tribological properties of the composite layers in composite casts AK-12 – ceramic particles. PhD Dissertation, Katowice 2003r.
- [12] R.L. Deuis, C. Subramanianian, J.M. Yellup: Abrasive wear of aluminium composites - a review. Wear 201, Elsevier 1996, p. 132-134.
- [13] A. Dolata-Grosz, J. Śleziona, B. Formanek: Aluminium matrix cast composite (AMCC) with hybrid reinforcement, Archives of Faundry, Vol.5, (2005) No 15, pp. 70-78, (in polish).
- [14] A. Dolata-Grosz, J. Śleziona, B. Formanek, J. Wieczorek: Al-FeAl-TiAl-Al2O3 composite with hybrid reinforcement, Journal of Materials Processing Technology, 162-163 (2005), pp. 33-38.
- [15] A. Dolata-Grosz, J. Śleziona, J. Wieczorek, B. Formanek: Properties of Al matrix composites reinforced with fine dispersed SiC and Al2O3 particles, Proc. of Int. Congress Advanced Materials and Technology, Materials Week, 2001, Munich
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c213ed89-ed39-4c9f-9e9b-c924e3e9a064