Abstract
Ageing characteristics and high temperature tensile properties of the Al–7Si–1Cu–0.5Mg (wt%) alloy modified with transition metals Cr, Ti, V and Zr, were tested. The modified alloy formed the Cr/Ti/V/Zr-rich dispersoid phases with a variety of morphologies. During isochronal ageing, the alloy reached a peak hardness of 92 HRF after a cycle at 200°C for 1h. The tensile test at room temperature showed that alloying additions increased the yield stress by 30% and ultimate tensile strength by 5%. With increasing the testing temperature from 25°C to 300°C, the yield strength and tensile strength decreased from 300MPa to 184MPa and from 313MPa to 196MPa, respectively. Fractographic analysis after tensile testing revealed that coarse intermetallics influenced the crack propagation. At lower temperature, the cleavage-type brittle fracture was dominant while at higher temperature the fully ductile cracking mode was present. It is believed that the Cr, Zr, Ti and V-containing dispersoid phases improved the alloy strength at the elevated temperature.
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