Abstract:Magnesium alloy is suitable for anode material of battery due to stable discharge, low cost and negative standard potential. However, the commonly used positive extruded anode magnesium alloy often has poor discharge performance due to large grain size difference and uneven distribution of the second phase. In order to improve the discharge performance of extruded alloy, equal channel corner extrusion (ECAP) technique was used to deform the extruded Mg-9Al-1.5Bi-0.5In alloy, and the microstructure observation and electrochemical test were carried out. The results show that complete dynamic recrystallization occurs after ECAP, the grain size is refined and the second phase is evenly distributed. With the increase of extrusion pass, the grain size and the second phase size both decrease first and then increase, while the volume fraction of the second phase increases first and then decreases, reaching the extreme value when the extrusion pass is 2. The alloy with extrusion pass of 2 has better electrochemical properties, and the corrosion current density and corrosion potential are 126.63 μA/cm² and -1.48713 V, respectively. The alloy with extrusion pass of 2 has the highest utilization rate (53.74%), power density (43.181 mW/cm²) and specific capacity (1412.574 mA？h/g). Therefore, Mg-9Al-1.5Bi-0.5In alloy with extrusion pass of 2 is widely used in low current state.

Key words: magnesium alloy; forward extrusion; ECAP; microstructure; electrochemical property