Effect of Nickel Addition on Solidification Microstructure and Tensile Properties of Cast 7075 Aluminum Alloy

In order to explore the casting technology of a high-strength aluminum alloy, the effects of nickel on the solidified microstructure and tensile properties of a 7075 aluminum alloy were studied. 7075 aluminum alloys without nickel and with 0.6% and 1.2% nickel were prepared by a casting method. The results showed that the increase of Ni content in the 7075 alloys increased the liquidus temperatures, primary alpha (Al) grains were refined significantly, and the divorced eutectic structure was gradually formed among alpha (Al) grains with the preformation of the Al3Ni phase. In comparison, the 7075 alloy with 0.6% nickel content had less intergranular shrinkage porosity, and its elongation and ultimate tensile strength was enhanced 45% and 105% higher than those of the as-cast 7075 aluminum alloy, respectively. When the Ni content was increased to 1.2%, the eutectic phases of the alloy became much coarser compared to the other two alloys, and the mechanical properties obviously reduced too.

Automated summary

The effects of nickel on the solidified microstructure and tensile properties of a 7075 aluminum alloy were investigated. It was found that increasing nickel content refined the primary alpha (Al) grains and promoted the formation of divorced eutectic structure, but excessive nickel content resulted in coarsening of the eutectic phases and reduction in mechanical properties.