Microstructure and mechanical properties of spray deposited hypoeutectic Al–Si alloy

The microstructure and the tensile properties of an Al-8.9 wt.% Si-3.2 wt.% Cu-0.9 wt.% Fe-0.8% Zn alloy processed by spray forming was investigated. The alloy was gas atomized with argon and deposited onto a copper substrate. The microstructure was evaluated by optical microscopy (OM), scanning electron microscopy (SEM) and energy dispersive X-ray spectroscopy (EDS). Small faceted dispersoids observed surrounding equiaxial ␣-Al matrix were identified by SEM-EDS as silicon particles. Sand cast samples with the same composition showed a columnar dendritic ␣-Al matrix, Al-Si eutectic, polyhedric ␣-AlFeSi and needle-like ␤-AlFeSi intermetallics. In the spray formed material the formation of the Al-Si eutetic was suppressed, and the formation of the ␣-AlFeSi and ␤-AlFeSi intermetallics was strongly reduced. The fine and homogeneous microstructure showed an aluminium matrix with grain size ranging from 30 to 40 m, and particle size of the silicon dispersoids having a mean size of 12 m. Room temperature tensile tests of the spray formed alloy showed relative increasing of strength and elongation when compared with the values observed for the conventionally cast counterparts. These results can be ascribed to the refined microstructure and the scarce presence of intermetallics of the spray formed material.