Abstract:The static thermal corrosion behaviors at 850℃ in cryolite melten atmosphere by adding 0.8%Y, 5.3%Ta and 13.6%Cr (mass fraction), respectively, in Ni-10%Fe-10%Al-10%Cu cast alloys were investigated by SEM, XRD and EDX. The results indicate that, the oxides layer is formed on the surface of Ni-10%Fe-10%Al-10%Cu (mass fraction) alloy. The reductive reaction O₂+2e=2O²⁻ takes place on the interface between melt salt and oxides layers due to the concentration and diffusion of oxygen. The oxides layers as NiO and Al₂O₃ tend to be loose, porous and easy to be peeled off because of MeO₂²⁻ produced by the reaction between O²⁻ and MeO. In addition, the oxide layers on the surface of Ni-10%Fe-10%Al-10%Cu alloy can easily be dissolved by fluoride volatized from molten salt after physical and chemical reactions, then the corrosion products are laminated. Adding 0.8%Y and 5.3%Ta can clear the impurities at grain boundaries and densify the oxides in the corrosion layer, thus the high temperature corrosion resistance of alloys in cryolite melten atmosphere is improved. The Ni-10%Fe-10%Al-10%Cu alloy with adding 13.6%Cr has the best corrosion resistance in cryolite melten atmosphere because the main oxides in corrosion layer are Cr₂O₃ and NiCr₂O₄, which can inhibit the activities of the other oxides and enhance the protective ability of the oxide layers.

Key words: Ni-Fe-Al-Cu alloy; cryolite melten atmosphere; Y; Ta; Cr