Oxidation of ZrC–30vol% SiC composite in air from low to ultrahigh temperature

Abstract

Abstract Oxidation of ZrC–30 vol.% SiC is investigated in air using furnace and oxyacetylene torch. The microstructure and phase composition of oxide scales are analyzed via SEM, XRD, and Raman. At 800 and 1100 °C, SiC is embedded in the porous and cracked ZrO 2 scales, which have a single-layer structure and are almost non-protective. At 1300 and 1500 °C, the protective effect of oxide scales is enhanced by the formed SiO 2 . The scales consist of two subscales, outer and inner layers, during oxidation at 1300 °C for ≥1 h, and 1500 °C for ≥15 min. The growth kinetics of both layers is analyzed. At ∼1700 °C, a new layer is observed between the outer and inner layers, which should contain less carbon than the inner layer. At ∼2100 °C, the oxide scale is porous and contains many big holes. This scale shows a single-layer structure, which mainly consists of ZrO 2 .