Research and development of magnesium casting alloy depends largely on the metallurgist’s understanding and ability to control the microstructure of the as-cast part. Currently few sources of magnesium solidification information and as-cast microstructure exist. Therefore, the purpose of this research is to create the general database of magnesium solidification behavior and to characterize the resultant microstructures. Experiment has been development and constructed to study the solidification behavior of magnesium-aluminum alloy casting alloys via CA-CCA(computer aided – cooling curve analysis) and quantitative metallography analysis. These analyses have been performed on five kinds of magnesium-aluminum alloys, including commercial AZ91 magnesium alloy, and experimental alloys which was mixed with pure magnesium (3N) and pure aluminum (3N) such as Mg-3Al, Mg-6Al, Mg-9Al and Mg-15Al. The resultant microstructure has been characterized for microstructures and the various phases were analyzed using optical and scanning electron microscopy, as well as energy dispersive x-ray spectroscopy. The measurement were performed using a cooling rate on the order 10-40 , and results of these analyses show the higher cooling rate, the lower volume fraction of Mg17Al12 precipitation, and this is because the solid solution of Al in Mg-Al is controlled by cooling rate. Quantitative metallography analysis reveals the relationship between cooling rate and as-cast microstructure. It also can be used to define critical conditions for existing partially divorced and fully divorced precipitation. Finally, these results should provide useful knowledge for research towards develop casting procedure of magnesium alloys.