The morphology of solidification microstructure is difficult to control in a casting process, in which only the grain size can be easily changed. To perform advanced casting techniques such as directional solidification and the growth of single crystal, a proper casting mechanism is needed to control solidifying microstructure. Among these solidification processes, the growth of single crystal is the most difficult one and directional solidification is the second. The fabricating technique of single crystal is based on that of directional solidification. To obtain directional solidification, in this paper, the experiment models are designed to investigate. In this study, Pb-Sn alloy is used as the testing material and five different initial concentrations of lead (Sn-2.5, 5, 10, 20, 38wt.% Pb) are used in Model. An optical microscope is utilized to observe the solidifying microstructure and the thermal couples are used to measure the temperatures along the axial direction of the cylindrical casting. The relationship between solidification parameters (initial concentration) and microstructures were investigated for models. From the analysis results, the controlled mechanism of directional solidification can be further grasped.