The electrodeposition of zinc-nickel alloys from ammonium chloride baths was studied at intermediate current densities, where some peculiarities were observed both during the deposition and during the oxidation of the alloys. In this interval, although the whole deposit had a composition corresponding to α-phase zinc-nickel alloy, electrochemical and surface analyses indicated that the deposition took place with the formation of two structures: a first nickel-like crystalline deposit followed by a second-stage typical α-phase microcrystalline structure deposit. The high hydrogen evolution on this second deposit promoted the inclusion of zinc oxidized species on the coating. During the potentiodynamic oxidation of the alloys obtained at these current densities, a reduction process was observed that was attributed to the deposition of the α-phase together with hydrogen evolution.