An SFG and ERS investigation of the corrosion of CoW0.013C0.001 alloys and WC-Co cermets in CN--containing aqueous solutions

In order to increase the knowledge of the corrosion mechanism, in situ spectroelectrochemical methodologies were employed in the investigation of the electrochemical interface of WC Co hard-metals. Together with standard cyclic voltarnmetries (CV), ElectroReflectance Spectroscopy (ERS) and Sum Frequency Generation (SFG) spectroscopy measurements were performed both on a Co-base alloy, simulating the metallic binder of hardmetal composites, and on a model WC-Co system. A cyanide solution, encountered in the gold extraction industry, was employed as electrolyte. Electrochemical cells and experimental apparatuses were designed to allow in situ experiments. CV measurements showed corrosion attack to run at potentials more anodic than -500 mV vs. Ag/AgCl, both for the alloy and the composite. The high reactivity of the alloy in cyanide environment was witnessed by the time-dependence of the surface vibrational (SFG) and electronic (SFG and ERS) properties under cathodic polarisation. Furthermore, SFG measurements highlighted two different adsorbation sites for cyanide ion, probably alpha- and epsilon-Co. The WC-Co system showed a pseudo-passivation peak, typical of the corrosion behaviour of this material, due to precipitation of corrosion products. ERS data at 532 nm showed an ennobling of the potential at which the reflectivity increase was recorded. (C) 2006 Elsevier Ltd. All rights reserved.