INFLUENCE OF METHODS FOR ALTI MASTER ALLOY PRODUCTION ON ITS STRUCTURE AND EFFICIENCY IN ALUMINUM ALLOY MODIFICATION

K. Nikitin, I. Timoshkin, V. I. Nikitin
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Abstract

A comparative study on the effect of methods for obtaining AlTi4 modifying master alloys on the sizes of Al3Ti intermetallics is made. It is found that increasing cooling rates at solidification from 10–15 °C/s (crystallization in a hot cast iron mold, a plate 30 mm in thickness) to 60–65 °C/s (crystallization in a cold cast iron chill mold, a rod 20 mm in diameter, 170 mm in length) reduces the length and thickness of needle-shaped intermetallics almost twice (397×23 to 215×13 μm). At the same time, lower electrical conductivity and higher alloy density in a solid state are observed. Melt modification with 0,5 wt.% magnesium addition causes the formation of homogeneous 98×3 μm fine-needle intermetallics. The addition of magnesium slightly reduces electrical conductivity and density compared with the AlTi4 master alloy crystallized at the same cooling rate (60–65 °C/s). Modification of A97 grade aluminum and AK9ch alloy (Al–Si–Mg system) with the specified master alloys at the same amount of titanium added (0,01 wt.%) exerts hereditary influence on the density and electrical conductivity, and macrograin (A97) and dendrites of aluminium (AK9ch). The maximum modifying effect is provided by the AlTi4 master alloy containing 0,5 wt.% magnesium. When introduced into the alloy, it contributes to the formation of 10 μm aluminum dendrites 1427 pcs/mm2 in total in the alloy structure. When the AK9ch alloy is modified with the master alloy crystallized at cooling rates of 10–15 °C/s, 28 μm dendrites 672 pcs/mm2 in total are formed in the alloy structure. It is suggested to use density and electrical conductivity determination methods for express evaluation of master alloy modifying effectiveness.
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alti母合金生产方法对铝合金改性组织和效率的影响
对比研究了AlTi4改性中间合金的制备方法对Al3Ti金属间化合物尺寸的影响。研究发现,将凝固冷却速度从10-15℃/s(在热铸铁模具中结晶,厚度为30 mm)提高到60-65℃/s(在冷铸铁冷模中结晶,直径为20 mm,长度为170 mm),针状金属间化合物的长度和厚度减少了近两倍(397×23至215×13 μm)。同时,观察到较低的电导率和较高的合金密度在固态。添加0.5% wt.%镁的熔体改性可以形成均匀的98×3 μm细针状金属间化合物。与在相同冷却速率(60-65℃/s)下结晶的AlTi4主合金相比,镁的加入略微降低了电导率和密度。在相同钛添加量(0.01 wt.%)下,用指定的母合金对A97级铝和AK9ch合金(Al-Si-Mg系)进行改性,对铝(AK9ch)的密度、电导率、大晶粒(A97)和枝晶(AK9ch)产生遗传影响。含0.5% wt.%镁的AlTi4主合金具有最大的改性效果。引入合金后,在合金组织中形成10 μm的铝枝晶,总数为1427个/mm2。在冷却速率为10 ~ 15℃/s的条件下,用主合金对AK9ch合金进行改性,合金组织中形成28 μm枝晶,总数为672 pcs/mm2。建议采用密度测定法和电导率测定法对中间合金的改性效果进行快速评价。
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