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Międzynarodowe Sympozjum Metody oceny struktury oraz własności materiałów i wyrobów (XXV ; 12-14.10.2010 ; Turawa, Polska)
Języki publikacji
Abstrakty
Magnesium alloys has been used for a wide variety of applications, namely from the reason of their low density and high strength-to-weight ratio. Low inertia, which results from its low density, is advantageous in rapidly moving parts, for example automobile wheels and other automobile parts [1-2]. The basic magnesium alloys include ones which contain manganese, aluminium, zinc and other elements which allow obtaining suitable properties. Scope of utilisation of foundry magnesium alloys is continuously being extended, so if we want to operate as competitive producers, it is necessary to investigate very actively properties of individual alloys, optimise their chemical composition, study issues of their metallurgical preparation, verify experimentally their casting properties and conditions of successful casting of castings by individual methods, including heat treatment, forming and others specials methods of processing as are application of new forming method ECAP. Application of this method on aluminium alloys is described by many authors. From the reason low formability metals with hexagonal lattice the application of this method on magnesium alloys is now developed [3]. Paper presents results of investigations in new commercial prepared of modify magnesium alloy MgAl8MnCa with the following chemical composition (wt %): Al - 7,8; Zn - 0.05; Mn - 0.172; Ca - 0.9; rest Mg. Modify magnesium alloy MgAl8MnCa is a competitive cost alloys with aluminum 380. It is a creep resistant alloy with the capability of long-term operation at temperatures up to 150°C under high loads. This alloy exhibits good castability, corrosion resistance and mechanical properties at room temperature, similar or better to AZ91D. The main modifying element is Ca. Comparison the basic mechanical properties are shown in Table 1 [4]. The creep resistance of the alloy is substantially superior to that of commercial magnesium alloys at temperature of 130-150°C under stresses of 50-80MPa. The main applications targeted by this alloy include gearbox housings, valve covers, intake manifolds, oil pans, oil pumps and many under the hood components. For the metallographic analysis of structure magnesium alloy MgAl8MnCa the light microscopy and SEM were used.
Rocznik
Tom
Strony
13--14
Opis fizyczny
Bibliogr. 4 poz., tab.
Bibliografia
- [1] ASM Specialty Handbook-Magnesium and Magnesium Alloys, ed. AVEDESIAN M., BAKER H., ASM International, USA, 1999, 3-84.
- [2] DAVIS J.R.: Metals Handbook, Desk. Edition, Second Edition, ASM International, The Materials Information Society, USA, 1998, 560- 564.
- [3] ČÍŽEK L., RUSZ S.: Influence accumulative plastic deformation on structure and properties of Mg –Zr alloy, Transaction of the VŠB-Technical University of Ostrava, Mechanical series, LV, 3, 2009, 25-30.
- [4] ČÍŽEK L., GREGER M., PAWLICA L., DOBRZAŃSKI L.A., TAŃSKI T.: Study of selected properties of magnesium alloy AZ91 after heat treatment and forming. In: Journal of Materials Processing Technology, 157-158, 2004, 466-47.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOM-0036-0005