Abstract��The conductive properties of the electrode plates in zinc electrolysis process are one of the important factors of the electrolysis energy consumption. In order to improve the conductivity of electrode plates�� the Cu-Al composite electrodes are widely used. The influence of different manufacturing processes on the Cu-Al composite electrode interface adhesiveness is great�� which leads to a great difference in the conductivity of the composite electrode. The too low composite interface adhesiveness will result in producing a lot of heat when a large current is passed�� or even an explosion at the composite interface. Therefore�� it is necessary to compare several manufacturing processes of the Cu-Al composite electrode�� find the most suitable manufacturing process�� and analyze the corrosion resistance of the interface to get the effective method of promoting the Cu-Al composite electrode interface corrosion resistance. In addition�� the nondestructive testing of the Cu-Al composite electrode produced by the explosive welding and the mold casting method is explored�� which can provide a detection method of quickly identifying the unqualified composite electrode for company.
������. п�����ͭ�����ϵ缫�����칤�ռ�������[J]. �й������ڿ���, 2017, 35(3): 15-20.
JIN Shao-shen. Manufacturing process and nondestructive testing of the Cu-Al composite electrode used for zinc electrolysis. Chinese Journal of Iron and Steel, 2017, 35(3): 15-20.