The structures and compositions of Ti and Zr rich phases in ternary Al-Ti-Zr and quaternary Al-Si-Ti-Zr systems were investigated by energy dispersive spectroscopy and X-ray diffraction.The additions of Ti and Zr were changed.It was found that Ti and Zr can replace each other in the Ti and Zr rich phases of Al-(Si-)Ti-Zr alloys.Compositions of the phases have been measured as a function of Ti and Zr additions.The content of Ti(Zr) in the phases increases with its addition in the alloys.Besides,the increase of Ti content can result in a decrease of lattice parameters.Microhardness of the phases in Al-18Si-xTi-/Zr alloys changes with composition evolution.Moreover,the microhardness is higher than that of the intermetallics of ternary Al-Si-Ti and Al-Si-Zr alloys,due to the distortion of crystal structure caused by the replacement of Ti and Zr. The structures and compositions of Ti and Zr rich phases in ternary Al-Ti-Zr and quaternary Al-Si-Ti-Zr systems were investigated by energy dispersive spectroscopy and X-ray diffraction. The additions of Ti and Zr were changed. It was found that Ti and Zr can be replaced each other in the Ti and Zr rich phases of Al- (Si-) Ti-Zr alloys. Compositions of the phases have been measured as a function of Ti and Zr additions. ) in the phases increases with its addition in the alloys. Besides, the increase of Ti content can result in a decrease of lattice parameters. Microhardness of the phases in Al-18Si-xTi- / Zr alloys changes with composition evolution. Moreover, the microhardness is higher than that of the intermetallics of ternary Al-Si-Ti and Al-Si-Zr alloys, due to the distortion of crystal structure caused by the replacement of Ti and Zr.