Abstract
This study investigates and clarifies the qualitative and quantitative effects of Mg content and cooling rate (ranging from 0.5 to 4°C/s), on the modification of the silicon eutectic structure and on the undercooling of the silicon eutectic growth temperature (ΔTSi-eut) in the series of Al–Si–Cu–Mg alloys. The critical Mg content to produce a notable improvement in the silicon eutectic by 1.5 modification levels (regardless of the cooling rate) is 0.6wt.% Mg. A similar increase in the modification level was also observed when the cooling rate was increased to a maximum of 4°C/s, regardless of the Mg content. Measurements of the area and roundness of the silicon particles showed a good correlation with the modification level. The undercooling (ΔTSi-eut) increased by up to ~23°C at a relatively high Mg content and cooling rate and up to ~14°C when the Mg content was increased from 0.4 to 0.6wt.%.
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