Effects of Ni content on low cycle fatigue and mechanical properties of Al-12Si-0.9Cu-0.8Mg-xNi at 350 °C

Abstract

In order to study the effects of ε-Al3Ni phase on elevated temperature properties, Al-12Si-0.9Cu-0.8Mg-xNi alloys with Ni contents of 1.0%, 2.5% and 4.0%, respectively, were prepared by gravity casting and their microstructure, tensile and low cycle fatigue properties at 350°C were investigated. The results show that the microstrucure mainly consists of α-Al, eutectic Si, ε-Al3Ni, δ-Al3CuNi, and Q-Al5Cu2Mg8Si6 phase. Thermodynamic calculation indicates that the ε-Al3Ni weight fraction increases with Ni contents while other phase contents are kept constant, and this result is consistent with the microstructure and XRD analysis. With the increase of ε-Al3Ni content, the tensile strength at 350°C increases from 94MPa to 116MPa, while the elongation decreases from 2.8% to 2.0%. The Al-Si alloy with 2.5% Ni exhibits the optimal low cycle fatigue property with a fatigue strength coefficient of 198.29MPa and fatigue strength exponent of − 0.1295. The coarsening of ε-Al3Ni phase is obvious with a higher Ni content of 4.0%, and the debonding of coarse ε-Al3Ni phase accelerates the propagation of micro-cracks and degrades the fatigue properties. The ε-Al3Ni phase is beneficial to the mechanical properties of the alloys and thermally stable during fatigue test at 350°C.