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In the aluminium alloy family, Al-Zn materials with non-standard chemical composition containing Mg and Cu are a new group of alloys, mainly owing to their high strength properties. Proper choice of alloying elements, and of the method of molten metal treatment and casting enable further shaping of the properties. One of the modern methods to produce materials with submicron structure is a method of Rapid Solidification. The ribbon cast in a melt spinning device is an intermediate product for further plastic working. Using the technique of Rapid Solidification it is not possible to directly produce a solid structural material of the required shape and length. Therefore, the ribbon of an ultrafine grain or nanometric structure must be subjected to the operations of fragmentation, compaction, consolidation and hot extrusion. In this article the authors focussed their attention on the technological aspect of the above mentioned process and described successive stages of the fabrication of an AlZn9Mg2.5Cu1.8 alloy of ultrafinegra in structure designated for further plastic working, which enables making extruded rods or elements shaped by the die forging technology. Studies described in the article were performed under variable parameters determined experimentally in the course of the alloy manufacturing process, including casting by RS and subsequnt fragmentation.
Czasopismo
Rocznik
Tom
Strony
57--62
Opis fizyczny
Bibliogr. 14 poz., fot., rys., tab., wykr.
Twórcy
autor
- Institute of Non Ferrous Metals, Light Metals Division, 19 Pilsudskiego Street, 32-050 Skawina, Poland
autor
- Institute of Non Ferrous Metals, Light Metals Division, 19 Pilsudskiego Street, 32-050 Skawina, Poland
autor
- Institute of Non Ferrous Metals, Light Metals Division, 19 Pilsudskiego Street, 32-050 Skawina, Poland
autor
- Institute of Non Ferrous Metals, Light Metals Division, 19 Pilsudskiego Street, 32-050 Skawina, Poland
autor
- AGH - University of Science and Technology Faculty of Foundry Engineering in Cracow, Poland
Bibliografia
- [1] Kurzydłowski, K. J. (2010). The development of structural materials; the history of aluminium alloys. Przegląd Mechaniczny. Proceedings of Jubilee Session.
- [2] Dobrzański, L. A. (2006). Engineering materials and materials design. Warszawa: WNT.
- [3] Praisner, T. J. Chen, J. S. & Tsenga, A. A. (1994). Experimental Study of Process Behavior in Planar Flow Melt Spinning. Metallurgical and Materials Transactions B. 26B, 1995-1199.
- [4] Lityńska-Dobrzyńska, L. Dutkiewicz, J. Maziarz, W. & Góral, A. (2011). Microstructure of Rapidly Solidified Al-12Zn-3Mg-1.5Cu Alloy with Zr and Sc Additions. Materials Transaction. 52, 309-314.
- [5] Cieślak, G. Latuch, J. & Kulik, T. (2006). Producing massive nanocrystalline alloys from the Al-Si-Ni-Mm (mischmetal) system. Inżynieria Materiałowa Rok XXVII. 3, 123-126.
- [6] Chen, H. & Yang, B. (2008). Effect of Precipitations on Microstructures and Mechanical Properties of Nanostructured Al-Zn-Mg-Cu Alloy. Materials Transactions. 49(12), 2912-2915.
- [7] Szymanek, M. Augustyn, B. Szymański, W. & Kapinos, D. (2013). The Production of Wrought AlSi30Cu1.5Mg1.2Ni1.5 Alloy with Ultrafine Structure. Light Metals. 2013, 521-525.
- [8] Augustyn, B. Szymanek, M. Kapinos, D. &Pakieła, W. (2014). Evaluation of Functional Properties of the Rapidly Solidified Cast AlSi30 Alloy as a Material for Transport Applications. Light Metals. 2014, 975-980.
- [9] Muszka, K. (2008). The effect of structure refinement on the strengthening mechanism of low-carbon plastic allydeformable steel. Unpublished doctoral dissertation, AGH University of Science and Technology, Kraków, Polska.
- [10] Carpenter, J. K. & Steen, P. H. (1992). Planar-flow spin casting of molten metals: process behavior. Journal of Materials Science. 27, 215-225.
- [11] Szymański, W. Szymanek, M. Żelechowski, J. Bigaj, M. Gawlik, M. & Płonka, B. (2013). Alloy AlSi30 Cast in the Process of Rapid Solidification and Consolidated in the Process of Plastic Forming. Light Metals. 2013, 333-337.
- [12] Kapinos, D. Szymanek, M. Augustyn, B. & Gawlik M. (2013). Effect of heat treatment on the mechanical properties of wrought Al-Zn-Mg-Cu alloy cast by Rapid Solidification. Materials Science Forum. 765, 496-500.
- [13] Sundararajan, A. & Thomas, B. G. (2008). Heat Transfer During Melt Spinning of Al-7%Si Alloy on a Cu-Be Wheel. Light Metals. 2008,793-810.
- [14] Naplocha, K. & Kaczmar, J. W. (2011). Tribological properties of Al 7075 alloy based composites strengthened with Al2O3 fibres. Archives of Foundry Engineering. 11(2), 153-158.
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Bibliografia
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