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Abstrakty
Modification of alloys is an important part of the metallurgical process, and this also applies to aluminum alloys, particularly for Al-Si (silumins). As a modification of the material we can utilise the modification using the selected element or heat treatment of alloys, or a combination of both processes. One of the elements that it is possible to modify the alloy of Al-Si used is antimony (Sb). The paper examines the possible effect of the modification of that element and heat treatment on the final structure of the alloy AlSi9CuMnNi and other selected properties after machining. In the experiments three castings from the alloy AlSi9CuMnNi were made without modification, three castings with the modification and without heat treatment, three castings with modification and without heat treatment, and three castings with modification and heat treatment. The described experiment and analysis are part of extensive research undertaken at Faculty of Production Technology and Management, J. E. Purkyně University in Ústínad Labem.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
18--21
Opis fizyczny
Bibliogr. 11 poz., rys., tab.
Twórcy
autor
- Faculty of Production Technology and Management, Jan Evangelista Purkyně University in Ústínad Labem, Pasteurova 1, 400 96 Ústínad Labem, Czech Republic, +420 475 285 513
autor
- Faculty of Production Technology and Management, Jan Evangelista Purkyně University in Ústínad Labem, Pasteurova 1, 400 96 Ústínad Labem, Czech Republic, +420 475 285 545
autor
- Faculty of Production Technology and Management, Jan Evangelista Purkyně University in Ústínad Labem, Pasteurova 1, 400 96 Ústínad Labem, Czech Republic, +420 475 285 513
Bibliografia
- 1. Bolibruchová, D., Tillová, E. 2005. Zlievarenskézliatiny Al-Si(Casting alloys Al-Si)ŽU in Žilina. Žilina. EDIS. ISBN 80-8070-485-6
- 2. Dugin, A., Popov, A. 2012Effect of the cutting tool wear on the ploughing force value.InStrojírenská technologie (In Production Technology). Vol. 17, No.1,2, pp. 19-23. ISSN 1211-4162.
- 3. Kalincová, D. 2010 Skušanie mechanických vlastností materiálov - prehlad meracich metod a zariadeni (Testing of mechanical properties of materials - overview of measuring methods and de-vices). KEGA 3/6370/08., TU vo Zvolene, Zvolen, p.13-26.
- 4. Kocman, K. 2011 Technologicképrocesyobrábění (Technological manufacturing processes). Brno. CERM.
- 5. Lipiński T. 2011 Microstructure and Mechanical Properties of the AlSi13Mg1CuNi Alloy with Ecological Modifier. In Manufacturing Technology. Vol. 11, pp 40-44. ISSN 1213-2489.
- 6. Michna, Š., Lukáč, I., Očenášek, V., Kořený, R., Drápala, J., Schneider, H., Miškufová, A. and coll. 2005. Encyklopediehliníku (Encyclopedia of Aluminium). Adin, Prešov, ISBN 80-89041-88-4.
- 7. Náprstkova, N. 2012 Vlivočkováníslitiny AlSi7Mg0,3 očkovadlem AlTi5B1 naopotřebe-ninástrojepřijejímobrábění. (Influence of Inoculation AlTi5B1 on the AlSi7Mg0,3 Alloy and its Tool Wear During its Machining). InStrojírenská technologie(In Production Technology). Vol. 17, 2012, No. 5,6, pp. 330-338. ISSN 1211-4162.
- 8. Roučka, J. 2004 Metalurgieneželeznýchslitin (Metallurgy of non-ferrous alloys). Brno, CERM, 148 p. ISBN 80-214-2790-6.
- 9. Suchánek, D., Dušák, K. 2011 Impact of cutting conditions on tool wear.In Strojírenská technologie (In Production Technology). Vol. 16, No.5, pp. 33-37, ISSN 1211-4162.
- 10. Tillová, E., Farkašová, M., Chalupová, M. 2013. The Role of Antimony in Modifying of Al-Si-Cu Cast Aloy.In Manufacturing Technology, Vol. 13, No. 1, pp. 109-114, ISSN 1213-2489.
- 11. Valíček, J., Rusnák, J., Müller, M., Hrabě, P., Kadnar, M., Hloch, S., KUŠNEROVÁ, M. 2008 Geometrické aspekty drsnosti povrchu klasických a netradičních technologií (Geometrical aspects of surface roughness of classic and innovative tech-nologies). In Jemná mechanika a optika (In Precision Mechanics and Optics), Vol.53, No.9, p.249-253.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5bb7c5d6-1b08-4e46-b9f2-ed66f75ce942