In this study, the microstructural evolution of an as-cast Al-Zn-Mg-Cu alloy (AA7085) during various homogenization schemes is investigated. It is found that in a single-stage homogenization scheme, some of the primary eutectic gets transformed into the Al2CuMg phase at 400 degrees C, and the primary eutectic and Al2Cu phase gradually dissolve into the alloy matrix at 450 degrees C. The Al3Zr particles are mainly precipitated at the center of the grain because Zr is peritectic. However, the homogeneous distribution of the Al3Zr particles improves and the fraction of Al3Zr particles increases in two-stage homogenization scheme. At the first low-temperature (e. g., 400 degrees C) stage, the Al3Zr particles are homogeneously precipitated at the center of the grain by homogeneous nucleation and may be heterogeneously nucleated on the residual second-phase particles at the grain boundary regions. At the second elevated-temperature (e. g., 470 degrees C) stage, the Al3Zr nuclei become larger. A suitable two-stage homogenization scheme for the present 7085-type Al alloy is 400 degrees C/12 h + 470 degrees C/12 h.