In the electrochemical machining (ECM) of the blisk, the flow field plays an important role in the machining stability, and the inlet angle of electrolyte solution has an important influence on the uniformity of the flow field. For the flow pattern from blade tip to blade root, five inlet angle flow models (12°, 22°, 32°, 42° and 52°) were designed, and the flow field simulation of electrochemical machining was carried out. The results show that the average flow rate is 19.01 m/s and the mean square deviation of flow rate is 6.33 when the inlet angle of electrolyte is 32°, which meets the requirements of flow field for electrochemical machining of the blisk. Under the flow field form with inlet angle of electrolyte solution of 32°, the electrochemical machining experiment of the blisk was carried out. The machining process was stable, the surface of the workpiece was free of flow texture, the machining accuracy was 0.12 mm, and the surface roughness was Ra0.353 μm, which verified the rationality of the flow field.