AZ91D surface alloying was investigated through evaporative pattern casting(EPC) technology.Aluminum powder(0.074 to 0.104 mm) was used as the alloying element in the experiment.An alloying coating with excellent properties was fabricated,which mainly consisted of adhesive,co-solvent,suspending agent and other ingredients according to desired proportion.Mg-alloy melt was poured under certain temperature and the degree of negative pressure.The microstructure of the surface layer was examined by means of scanning electron microscopy.It has been found that a large volume fraction of network new phases were formed on the Mg-alloy surface,the thickness of the alloying surface layer increased with the alloying coating increasing from 0.3 mm to 0.5 mm,and the microstructure became compact.Energy dispersive X-ray(EDX) analysis was used to determine the chemical composition of the new phases.It showed that the new phases mainly consist of β-Mg17Al12,in addition to a small quantity of inter-metallic compounds and oxides.A micro-hardness test and a corrosion experiment to simulate the effect of sea water were performed.The result indicated that the highest micro-hardness of the surface reaches three times that of the matrix.The corrosion rate of alloying samples declines to about a fifth of that of the as-cast AZ91D specimen. AZ91D surface alloying was investigated through evaporative pattern casting (EPC) technology. Aluminum powder (0.074 to 0.104 mm) was used as the alloying element in the experiment. Alloying coating with excellent properties was fabricated, which largely consisted of adhesive, co-solvent , suspending agent and other ingredients according to the desired proportion. Mg-alloy melt was poured under certain temperature and the degree of negative pressure. The microstructure of the surface layer was examined by means of scanning electron microscopy. It has been found that a large volume fraction of network new phases were formed on the Mg-alloy surface, the thickness of the alloying surface layer increased with alloying coating increasing from 0.3 mm to 0.5 mm, and the microstructure became compact. Energy dispersive X-ray (EDX) analysis was used to determine the chemical composition of the new phases. It showed that the new phases mainly consist of β-Mg17Al12, in addition to a small quantity of inter-met allic compounds and oxides. A micro-hardness test and a corrosion experiment to simulate the effect of sea water were performed. The result indicates that the highest micro-hardness of the surface reaches three times that of the matrix. The corrosion rate of alloying samples declines to about a fifth of that of the as-cast AZ91D specimen.