Abstract
The present work examined the gas evolution on a solid-state sintered silicon carbide material (EKasic®D) at high anodic potentials (up to 120 V vs Ag/AgCl). By using the amperometric detection as well as the method of oxygen quenching, the part of anodic evolved oxygen could be determined for 75–95% of the total amount of consumed charge. The minor part of the total charge is consumed by oxide film formation (passive range) or material dissolution (transpassive range).
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