5Cr-0.5Mo steel was coated by hot-dipping into a molten bath containing pure Al. The phase transformation in the aluminide layer during diffusion at 750 ℃ in static air was analyzed by Electron Backscatter Diffraction (EBSD). The results showed that the aluminide layer in the ascoated specimen consisted of an outer FeAl3 layer and an inner Fe2Al5 layer. The Fe2Al5 phase kept growing with increasing exposure at 750 ℃, but the FeAl3 phase didn't change significantly. The FeAl3 phase disappeared once the aluminum layer was consumed. After 60min of exposure at 750 ℃, FeAl2 phase formed at the inner and outer sides of the Fe2Al5 phase while FeAl phase formed at the interface between FeAl2 and the steel substrate. With prolonged exposure, the thickness of FeAl increased and the volume of FeAl2 expanded at the expense of Fe2Al5. Based on Crystal Orientation Map (COM), Fe2Al5 grew preferentially along the C-axis, [001] direction, of the crystal structure.