Effects of(Pr+Ce) addition on the Al-7Si-0.7Mg alloy were investigated by optical microscope(OM), energy diffraction spectrum(EDS), X-ray diffraction(XRD) and tensile tests. The results showed that the Al-7Si-0.7Mg alloy was modified with(Pr+Ce) addition. The needle-like eutectic silicon phase developed into rose form and the crystalline grains decreased in size and showed a high degree of spheroidization. When the amount of the(Pr+Ce) addition reached 0.6 wt.%, the mean diameter was 31.8 μm(refined by 50%). The aspect ratio decreased to 1.35, and the tensile strength and ductility reached 192.4 MPa and 2.18%, respectively. At higher levels of addition, over-modification occurred, as indicated by increased grain size and reduced mechanical properties. The poisoning effect of the(Pr+Ce) addition on eutectic silicon and the constitutional supercooling caused by the(Pr+Ce) addition were the major causes of alloy modification, grain refinement, and the improvement of mechanical properties. Effects of (Pr + Ce) addition on the Al-7Si-0.7Mg alloy were investigated by optical microscope (OM), energy diffraction spectrum (EDS), X-ray diffraction -7Si-0.7Mg alloy was modified with (Pr + Ce) addition. The needle-like eutectic silicon phase developed into rose form and the crystalline grains decreased in size and showed a high degree of spheroidization. When the amount of the (Pr + Ce) addition reached 0.6 wt.%, The mean diameter was 31.8 μm (refined by 50%). The aspect ratio decreased to 1.35, and the tensile strength and ductility reached 192.4 MPa and 2.18%, respectively. At higher levels of addition, over-installed occurred, as indicated by increased grain size and reduced mechanical properties. The poisoning effect of the (Pr + Ce) addition on eutectic silicon and the constitutional supercooling caused by the (Pr + Ce) addition were the major causes of alloys modification , grain refinement, and the improvement of mechanical properties .