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Badania kompozytu na osnowie stopu aluminium wzmacnianego SiC otrzymanego metodą prasowania na gorąco
Języki publikacji
Abstrakty
The present work investigates the possibility of using powder metallurgy processing for producing a metal matrix composite. Materials were prepared from AlSi5Cu2 chips with reinforcement of 10, 15, 20 wt. % silicon carbide. Aluminum alloy chips were milled with SiC powder in a high-energy ball mill by 40 hours. Mechanical alloying process lead to obtain an uniform distribution of hard SiC particles in the metallic matrix and refine the grain size. The consolidation of composite powders was performed by vacuum hot pressing at 450°C, under pressure of 600 MPa by 10 min. The results shows that the addition of SiC particles has a substantial influence on the microstructure and mechanical properties of composite powder as well as consolidated material. Hot pressing is an effective consolidation method which leads to obtain dense AlSi5Cu2/SiC composite with homogeneous structure and advanced mechanical properties.
Wydawca
Czasopismo
Rocznik
Tom
Strony
1523--1527
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
autor
- AGH- University of Science and Technology In Cracow, Faculty of Non-Ferrous Metal, Poland
autor
- AGH- University of Science and Technology In Cracow, Faculty of Non-Ferrous Metal, Poland
autor
- Polish Academy of Science, Institute of Metallurgy and Materials Engineering, Poland
autor
- Politecnico Di Torino, Department of Applied Science and Technology, Italy
autor
- Politecnico Di Torino, Department of Applied Science and Technology, Italy
Bibliografia
- [1] J. Gronostajski, H. Marciniak, A. Matuszak, Journal of Materials Processing Technology 106, 34-39 (2010).
- [2] M. Samuel, Journal of Materials Processing Technology 135, 117-124 (2003).
- [3] V. Güley, N. Ben Khalifa, A. E. Tekkaya, International Journal of Material Forming 3, 853-856 (2010).
- [4] Z. Sherafat, M. H. Paydar, R. Ebrahimi, Journal of Alloys and Compounds 487, 395-399 (2009).
- [5] A. Tekkaya, M. Schikorra, D. Becker, D. Biermann, N. Hammer, K. Pantke, Journal of materials processing technology 209, 3343-3350 (2009).
- [6] L. Blaz, A. Kula, J. Kaneko, M. Sugamata, G. Wloch, K. Sobota, Journal of Microscopy 237, 416-420 (2010).
- [7] P. Kurtyka, N. Ryłko, Archives of Metallurgy and Materials 58, 357-360 (2013).
- [8] J. Torralba, C. da Costa, F. Velasco, Journal of Materials Processing Technology 133, 203-206 (2003).
- [9] D. Garbiec, M. Jurczyk, Composites Theory and Practice 13, 255-259 (2013).
- [10] B. Leszczyńska-Madej, Archives of Metallurgy and Materials 58, 43-48 (2013).
- [11] K. L. Meena, A. Manna, S. S. Banwait, American Journal of Mechanical Engineering 1, 14-19 (2013).
- [12] M. Samuel, Journal of Materials Processing Technology 142, 295-306 (2003).
- [13] J. Fogagnolo, E. Ruiz-Navas, M. Simón, M. Martinez, Journal of Materials Processing Technology 143-144, 792-795 (2003).
- [14] M. Suśniak, J. Karwan-Baczewska, J. Dutkiewicz, M. A. Grande, Inżynieria Materiałowa 186, 86-89 (2012).
- [15] M. Suśniak, J. Karwan-Baczewska, J. Dutkiewicz, M. A. Grande, M. Rosso, Archives of Metallurgy 58, 437-441 (2013).
- [16] M. Suśniak, D. Kołacz, M. Lis, J. Karwan-Baczewska, T. Skrzekut, Rudy i Metale Nieżelazne 58, 447-453 (2013).
- [17] M. Suśniak, J. Karwan-Baczewska, J. Sulima, Key Engineering Materials 641, 30-38 (2015).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5a639367-c9c1-4e84-856e-cb40e2bfc74f