Abstract
This research is devoted to the study effects of complex alloying of Al-0.3 wt. % Mg-1 wt. % Si and Al-0.5 wt. % Mg-1.3 wt. % Si alloys by small additions of Sc and Zr on the microstructure in the as-cast condition. The effect of small additions of these elements on the microhardness, electrical conductivity, grain size and phase composition of the indicated alloy systems was studied. The methods of optical and electron microscopy were used for the study. Moreover, the phase composition was calculated using the Thermo-Calc software package. The study showed a strong effect of the chemical composition of investigated alloys on the size of the grains, which, with a certain combination of additives, can decrease several times. Grain refinement occurs both due to supercooling and formation of primary Al3Sc particles in the liquid phase. Alloys based on Al-0.5 wt. % Mg-1.3 wt. % Si are more prone to the formation of this phase since a lower concentration of Sc is required for it to occur. In addition, more silicon interacts with other elements. At the same time, Al-0.3 wt. % Mg-1 wt. % Si requires lower temperature for complete dissolution of Mg2Si, which can contribute to more efficient heat treatment, which includes reducing the number of steps. TEM data show that during ingot cooling (AlSi)3ScZr dispersoid precipitates. This dispersoid could precipitate as coherent and semi-coherent particles with L12 structure as well as needle-shaped particles. The precipitation of coherent and semi-coherent particles during cooling of the ingot indicates that they can be obtained during subsequent multistage heat treatment. In addition, in the Al0.5Mg1.3Si0.3Sc alloy, metastable β″ (Mg5Si6) are precipitated.
Highlights
Aluminum alloys are widely used in modern industry due to their combination of low density and high ductility [1,2,3,4,5,6,7,8,9,10]
That no appreciable refinement occurs with an increase in Zr or Sc alone. This is due to the fact that a scandium content of 0.6% is required for the hypereutectic composition and significant grain refinement
Variations of Mg within 0.3 ÷ 0.5%; SiSc + (Si) within 1 ÷ 1.3%; Sc within 0.0 ÷ 0.3%; Zr in the range of 0.0 ÷ 0.15% have a complex effect on the microstructure formed during casting of these alloys
Summary
Aluminum alloys are widely used in modern industry due to their combination of low density and high ductility [1,2,3,4,5,6,7,8,9,10]. In order to avoid AlSc2Si2, it is necessary to carefully select the chemical composition (mainly by changing the amount of zirconium) and control the casting and heat treatment modes In this case, due to joint scandium-zirconium alloying, it is possible to improve the properties of the 6XXX group alloys even if the ratio of the wt. The study of the processes occurring during casting and heat treatment of 6XXX group alloys with scandium-zirconium additives made it possible to avoid the undesirable phase and, in general, to improve the properties at a ratio Mg/Si > 1.73 in AA6082 [26,30,32]. The ingot was removed from the mold and cooled in water
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