Effect of the Powder Metallurgy Manufacture Process on the Electrochemical Behaviour of Copper, Nickel and Copper-Nickel Alloys in Hydrochloric Acid

In this study materials were manufactured using powder metallurgy, by mechanically milling Cu and Ni and mechanically alloying Cu-Ni (at 50-50 and 60-40% in weight). In order to consolidate samples at the lowest possible temperature, after the milling cold sintering was used at 300 degrees C and 900 MPa. This type of sintering does not always give high densities, though it is effective in not significantly altering the characteristics of the materials obtained from the milling process. The microstructural characteristics of the materials were analysed in each phase by X-ray diffraction, spectroscopy and scanning electron microscopy. Considering the sintering conditions and the materials in question, the results show that high densities were achieved (>90%) with the copper, but the densities were low for the binary alloys and the nickel alone (<80%). After the sintering, the electrochemical behaviour of each material was studied in acid media. The results show that under the manufacture conditions of this study, the consolidated 60-40 Cu-Ni and 50-50 Cu-Ni alloys behave better in terms of corrosion in 0.1M HCl than the copper and nickel alone.