Title :
Polarization corrosion of the iron-nickel alloy in Na3AlF6-based system molten salts
Author :
Shi, Zhongning ; Zhao, Xingliang ; Xu, Junli ; Wang, Zhaowen ; Gao, Bingliang
Author_Institution :
Sch. of Mater. & Metall., Northeast Univ., Shenyang, China
Abstract :
Fe-Ni (with different wt.%) alloys were prepared by powder metallurgy process and used as anode for aluminum electrolysis. Electrolysis polarization of these anodes was conducted for 12 hours at 850 degC in a Na3AlF6-based molten salt. The anodic current density was 0.75 A/cm2. At the initial stage, the corrosion rate decreased with increasing ratio of Fe to Ni in the alloy, when the ratio of Fe to Ni was 1.42, the lowest value of the corrosion rate with 21 mm/a was obtained. Then corrosion rate increased with increasing ratio of Fe to Ni. The analysis of Electron Probe Micro-analyzer and X-ray diffraction showed that the film formed on the anodic surface consisted of iron oxide as outer layer, and nickel oxide and nickel ferrite spinel as inner layer. The metal anode presented good performance in terms of anti-oxidation and corrosion resistance, and the purity of the produced aluminum was 98%.
Keywords :
X-ray diffraction; corrosion resistance; electrochemical electrodes; electrolysis; electron probe analysis; iron alloys; nickel alloys; powder metallurgy; sodium compounds; surface structure; Fe2O3; FeNi; Na3AlF6; Na3AlF6-based molten salt; NiFe2O4; NiO; X-ray diffraction; aluminum electrolysis polarization; anodic current density; anodic surface; antioxidation; corrosion resistance; electron probe microanalyzer; iron oxide; iron-nickel alloy; nickel ferrite spinel; nickel oxide; polarization corrosion rate; powder metallurgy process; temperature 850 C; time 12 hour; Aluminum alloys; Anodes; Corrosion; Current density; Electrochemical processes; Electrons; Iron alloys; Nickel alloys; Polarization; Powders; Fe-Ni alloys; corrosio; molten salts; oxidation; polarization;
Conference_Titel :
World Non-Grid-Connected Wind Power and Energy Conference, 2009. WNWEC 2009
Conference_Location :
Nanjing
Print_ISBN :
978-1-4244-4702-2
DOI :
10.1109/WNWEC.2009.5335858
