Abstract
AbstractAddition of the early 3d transition metals results in formation of primary Al3T (T = Sc, Ti and V) phases in Al alloys during casting. The newly formed Al3T particles not only improve the mechanical performance of the products but also act as grain-refiners in the solidification processes. Meanwhile, experiments found impacts of impurities, such as Si, on the formation of the Al3T phases; the mechanism is not fully understood. We here investigate effects of Si solution on the stability and crystal chemistry of the Al3T phases using first-principles density-functional theory. The study has revealed a rich variety of effects of Si solution on the Al3T phases. Si solution stabilizes the D022-Al3Ti structure so that it becomes the ground state, taking over the binary D023 phase. Si solution in D022-V occurs only at elevated temperature. Si solution has little impact on the Al3Sc phase relationship. The obtained information helps characterize the (Al, Si)3 T particles in Al products, understand their role in solidification and further design new Al alloys of desirable properties.
Funder
Engineering and Physical Sciences Research Council
Publisher
Springer Science and Business Media LLC
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