L. Díaz‐Ballote scite author profile

Scanning electrochemical microscopy ͑SECM͒ is used to image variations in electrochemical activity over the surface of an aluminum-based metal matrix composite ͑MMC͒ in contact with buffered or unbuffered neutral solutions. The composite consists of an Al-13.5% Si-9% Mg alloy matrix and reinforcing silicon carbide particles (SiC p ). Feedback-mode SECM imaging using ferrocenemethanol as a redox mediator in 0.1 M NaCl solution and in buffer solution ͑pH 6.8͒ revealed that the SiC particles are electrochemically active. The data suggest that the electronic conductivity at these sites is higher than that of the Al 2 O 3 film covering the alloy matrix surface. The reduction of dissolved oxygen on the silicon carbide particles was investigated by in situ SECM images of samples and current vs. tip-substrate distance curves. The results with samples of SiC p /Al composites immersed in distilled water alone or in either 0.1 M NaCl or boric acid/borax buffer containing ferrocenemethanol as mediator demonstrate that the silicon carbide particles are conductive and act as local cathodes for the reduction of oxygen.

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Effect of Corrosion Products on the Atmospheric Corrosion of Electrodeposited Zinc and Zinc Alloy Coatings

Ramanauskas¹,

Quintana²,

Bartolo‐Pérez³

et al. 2000

CORROSION

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L. Díaz‐Ballote

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Activity of SiC Particles in Al-Based Metal Matrix Composites Revealed by SECM

Effect of Corrosion Products on the Atmospheric Corrosion of Electrodeposited Zinc and Zinc Alloy Coatings

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