Abstract
The effect of cooling rate on the occurrence of Al–Fe–Si intermetallic compound phases in 6063 aluminum alloy was investigated in the as-cast state using X-ray diffraction and transmission electron microscopy (TEM). The four alloys containing 0.1 to 0.5 mass%Fe were melted and then cooled at three cooling rates ranging from 0.06 to 5 K/s, and the Al–Fe–Si compound particles were extracted from the alloy ingots using the thermal phenol method. With increasing cooling rate, the amount of a skeleton-shaped α phase increased irrespective of iron content and that of the β phase decreased. When the iron content increased over 0.2%, the amount of the β phase decreased at the intermediate cooling rate (5 K/s). When the iron content decreased from 0.2 to 0.1%, the amount of the β phase also decreased and the α' phase co-existed. As a result, at a typical Fe content, i.e., 0.2%Fe, in commercial 6063 alloys, the β phase was most frequently formed in comparison with other Fe content, and became the main phase even at the intermediate cooling rate (5 K/s) which was roughly equal to that for the commercial ingots.
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