The aim of this work was to assess the repeated-remelting influence upon the mechanical properties, thermomechanicalproperties, chemical composition and structure changes of the selected material. An Al-Cu-type aluminum alloy was chosen onthe basis of the ever increasing experiments with non-ferrous metals in the industry. The technical nomenclature of the selectedalloy is RR.350 according to the German standard ALUFOND 60. The RR.350 alloy is known for its poor foundry propertieswhich deteriorate due to remelting and affect mechanical properties and the cast-material structure. This negative influence uponthe structure and usable properties of a re-melted alloy is further confirmed in the submitted paper. The samples fortensile-strength determination were cast into a metal mould. The gating system and the riser, which served as a charge for thesecond melt, were removed from the casting. In this way we re-melted the material four times. The samples were machined andruptured within the temperature range between 20 °C and 350 °C. A sample for metallography and hardness determination(HBS) was taken from the cast material. It can be seen in the tensile-strength diagram that the mechanical properties of the firstmelt are higher, by 11 % at the temperature of 20 °C, than the properties of the third melt. This difference is evident up to 100°C. At the temperatures of above 100 °C the cast-material strength characteristics are the same. This tendency shows itself on allthe materials tested so far. The hardness and microhardness evaluations show that the material reaches the highest values withthe fourth melt. This phenomenon is attributed to the repeated reoxidation and exclusion of oxide membranes. Further, thematerial structure properties and chemical-composition change were evaluated. The results of this study confirmed a negativeinfluence of alloy remelting upon the material properties and structure.
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