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外文期刊>Archives of Metallurgy and Materials
>Electrodeposition and Properties of Nanocrystalline Ni-Based Alloys with Refractory Metal from Citrate Baths / Elektroosadzanie I W?asciwosci Nanokrystalicznych Stopów Na Osnowie Niklu Z Trudnotopliwym Metalem Z Kapieli Cytrynianowych
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Electrodeposition and Properties of Nanocrystalline Ni-Based Alloys with Refractory Metal from Citrate Baths / Elektroosadzanie I W?asciwosci Nanokrystalicznych Stopów Na Osnowie Niklu Z Trudnotopliwym Metalem Z Kapieli Cytrynianowych
The main aim of the present work was to determine the optimal conditions for electrodeposition of metallic Ni-Mo coatings of enhanced micromechanical properties. These alloys were electrodeposited on the ferritic steel substrate, under galvanostatic regime in a system with a rotating disk electrode (RDE), from an aqueous citrate complex solution containing nickel and molybdenum salts. The effect of the electrolyte solution pH (adjusted by sulphuric acid or ammonia) on the molybdenum content and on deposit quality as well as on the current efficiency of the electrodeposition process, has been studied. It was established that increase of bath pH is correlated with gradual increase of molybdenum content in deposits up to pH 7, where the maximum concentration of Mo(VI) electroactive citrate complex ions [MoO4(Cit)H]4- (Cit= C6H5O7-3 ) in plating bath was observed. In the selected bath of the optimum pH value, the effect of cathodic current density, as a crucial operating parameter which strongly controls the chemical composition and microstructure parameters (e.g. phase compositions, crystallite size), on the mechanical and tribological properties of the resulting coatings has been determined. It has been shown that - under all investigated current density range - crack-free, well adherent Ni-Mo coatings, characterized by microhardness of 6.5-7.8
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