This experiment uses commercialized carbon steels, 1008 mild steel, 1045 medium-carbon steel and 1085 high-carbon steel as the substrate. The steels were underwent heat treatments, normalizing, annealing, quenching and spheroidizing, to obtain various kinds of microstructure. Hot-dip aluminizing was performed on the heat-treated steels in order to investigate the effect of the microstructure of the carbon steels on the growth of aluminum layer and external aluminum layer during hot-dipping. The experiment results show that the hot-dipped aluminide coatings were composed of an outer Al topcoat and an inner Fe-Al intermetallic layer (mainly Fe2Al5), respectively. The carbon in the carbon steels, whether it was in the forms of carbon solid solution, spherical cementite or pearlite, had the ability of impeding the growth of Fe2Al5. Therefore the lower the carbon content in the steels, the faster the Fe2Al5 layer grew. In addition, the uniformity of the Fe2Al5 layer was influenced by the distribution of carbon in the steels. The steels with the more uniform distribution of carbon possessed the smaller variance in Fe2Al5 layer thickness. Furthermore, the significant factor that affecting the thickness of the external aluminum layer was the amount of carbide in the aluminum layer. The external aluminum layer thick: nesses increased as the amount of carbide in the aluminide layers increased, while the thicknesses variances were not subjected to the amount of carbon in the steels. The thicknesses variances of the external aluminum layers decreased as increasing the hot-dipping time.