Abstract
Abstract The electrochemical behaviour of AlF 3 was investigated in LiF–CaF 2 medium first with inert tungsten and then with reactive nickel electrodes. Cyclic voltammetry, square-wave voltammetry and chronopotentiometry indicated that the reduction of Al(III) in Al(0) is a single-step process exchanging three electrons: Al(III) + 3e − = Al The electrochemical reduction is controlled by the diffusion of AlF 3 in the solution. On a nickel electrode, a depolarisation effect for Al(III) reduction was observed in cyclic voltammetry due to the formation of Al–Ni alloys when aluminium ions react with the nickel substrate. Galvanostatic and potentiostatic electrolyses on a nickel electrode led to the formation of four nickel aluminides characterised by SEM: AlNi 3 , AlNi, Al 3 Ni 2 and Al 3 Ni. Layers with a uniform composition of AlNi 3 , AlNi and Al 3 Ni 2 were prepared by varying the electrolysis potential, the current density and duration of intermetallic diffusion.
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