Journal
CORROSION SCIENCE
Volume 208, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.corsci.2022.110602
Keywords
SiC/SiC; Self-healing; SiHfBCN; Wet oxidation resistance
Funding
- National Natural Science Foundation of China [91960105, 52061135102]
- Innovation Foundation for Doctor Dissertation of Northwestern Polytechnical Uni- versity [CX2021010]
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SiC/SiC-SiHfBCN composites with enhanced wet oxidation resistance were obtained by modifying the semi-dense SiC fiber reinforced SiC composites with single-source-precursor derived SiHfBCN ceramics. The wet oxidation behavior of SiC/SiC-SiHfBCN composites at 1200-1400°C in different atmospheres was investigated. It was found that the SiC-SiHfBCN ceramic matrix can provide damage-free protection for SiC fibers up to 1300°C in wet oxygen for at least 100 hours.
Semi-dense SiC fiber reinforced SiC (SiC/SiC) composites were modified by single-source-precursor derived SiHfBCN ceramics to obtain SiC/SiC-SiHfBCN composites with enhanced wet oxidation resistance. Wet oxidation behavior of SiC/SiC-SiHfBCN composites at 1200-1400 & DEG;C in different atmospheres were investigated. It was found that the SiC-SiHfBCN ceramic matrix can provide at least 100 h of damage-free protection for SiC fibers up to 1300 & DEG;C in wet oxygen. HfSiO4 with low oxygen diffusivity is found on the surface of SiC/SiC-SiHfBCN composites after oxidation, which is discussed in terms of diffusion of HfO2 from the bulk to the surface via liquids.
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