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Warianty tytułu
Języki publikacji
Abstrakty
According to the analysis of the current state of the knowledge shows that there is little information on the process of phase transformations that occur during the cooling Cu-Al-Fe-Ni hypo-eutectoid bronzes with additions of Cr, Mo and/or W, made additions individually or together, for the determination of: the type of crystallizing phases, crystallizing phases, order and place of their nucleation. On the basis of recorded using thermal and derivative analysis of thermal effects phases crystallization or their systems, analysis of the microstructure formed during crystallization - observed on the metallographic specimen casting ATD10-PŁ probe, analysis of the existing phase equilibrium diagrams forming elements tested Cu-Al-Fe-Ni bronze, with additions of Cr, Mo, W and/or Si developed an original model of crystallization and phase transformation in the solid state, the casting of high quality Cu-Al-Fe-Ni bronze comprising: crystallizing type phase, crystallizing phase sequence, place of nucleation.
Czasopismo
Rocznik
Tom
Strony
72--79
Opis fizyczny
Bibliogr. 16 poz., rys., tab., wykr.
Twórcy
autor
- Department of Materials Engineering and Production Systems, Lodz University of Technology, 1/15 Stefanowskiego Street, 90-924 Lodz, Poland
Bibliografia
- [1] Brezina, P. (1973). Gefügeumwandlungen und mechanische Eigenschaften der Mehrstoff-Aluminiumbronzen vom Typ CuAl10 Fe5 Ni5. Giesserei-Forschung. 25(3), 1-10.
- [2] Cook, M., Fentimen, W.P. & Davis, E. (1951-52). Observations on the structure and properties of wrought cooper-aluminium-nickel-iron alloys, J. Inst. Metals. 80, 419/29.
- [3] Brezina, P. (1973). Gefögeumwandlungen und mechanische Eigenschaften der Mehrstoff-Aluminiumbronzen vom Typ CuAl 10 Fe5 Ni5. Giesserei-Forschung, 25(3), 1-10.
- [4] Hasan, F., Jahanafrooz, A., Lorimer, G.W. & Ridley, N. (1982). The Morphology, Crystallography, and Chemistry of Phases in As-Cast Nickel-Aluminum Bronze. Met. Trans A. 13a, 1337-1345.
- [5] Jahanafrooz, A., Hasan, F., Lorimer, G.W. & Ridley, N. (1983). Microstructural Development in Complex Nickel-Aluminum Bronze. Met. Trans A. 14a, 1951-1956.
- [6] Fuller, M.D. (2006). Friction Stir Processing and Fusion Welding in Nickel Aluminum Propeller Bronze. Thesis, Thesis Advisor: Terry R. McNelley, Naval Postgraduate School, Monterey, California, USA.
- [7] Weill-Couly, P. & Arnaud, D. (1973). Influence De La Composition Et De La Structure Des Cupro-Aluminiums Sur Leur Comportment En Service. Fonderie. 322, 123-135.
- [8] Gumienny, G. (2011). TDA method application to austenite transformation in nodular cast iron with carbides assessment. Archives of Foundry Engineering. 11(3), 159-166.
- [9] Gumienny, G. (2010). Bainitic-martensitic nodular cast iron with carbides. Archives of Foundry Engineering. 10(2), 63-68.
- [10] Pietrowski, S. & Szymczak, T. (2009). Silumins alloy crystallization. Archives of Foundry Engineering. 9(3), 143-158.
- [11] Pietrowski S. & Szymczak, T. (2010). Crystallization, microstructure and mechanical properties of silumins with micro-additions of Cr, Mo, W and V. Archives of Foundry Engineer-ing. 10(1), 123-136.
- [12] Pisarek, B. (2007). The crystallization of the bronze with additions of Si, Cr, Mo and/or W. Archives of Materials Science and Engineering. 28(8), 461-466.
- [13] Pisarek, B. (2010). Influence of the technology of melting and inoculation preliminary alloy AlBe5 on change of concentration of Al and microstructure of the bronze CuAl10Ni5Fe4. Archives of Foundry Engineering. 10(2), 127-134.
- [14] Pisarek, B. (2011). Effect of additions Cr, Mo, W and/or Si on the technological properties on the technological properties of aluminium-iron-nickel bronze. Archives of Foundry Engineering. 11(3), 199-208.
- [15] Pisarek, B. (2012). Effect of annealing time for quenching CuAl7Fe5Ni5W2Si2 bronze on the microstructure and mechanical properties. Archives of Foundry Engineering. 12(2), 187-204.
- [16] Pietrowski, S. & Pisarek, B. (2007). Computer-aided technology of melting high-quality metal alloys. Archives of Metallurgy and Materials. 52(3), 481-486.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c3d56786-1fe0-4cdd-8d03-c1785b5d6952