Ablation behavior of three-dimensional Cf/SiC-ZrC-ZrB2 composites prepared by a joint process of sol-gel and reactive melt infiltration

•Ablation behavior of Cf/SiC-ZrC-ZrB2 under air plasma was studied.•SiO2-ZrO2-B2O3 oxide scale played a predominant role during the ablation.•2000 °C, composites showed positive recession due to active oxidation of SiC. Three-dimensional Cf/SiC-ZrC-ZrB2 composites were fabricated by a joint process...

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Bibliographic Details
Published in:Corrosion science 2018-04, Vol.134, p.49-56
Main Authors: Chen, Xiaowu, Feng, Qian, Zhou, Haijun, Dong, Shaoming, Wang, Jingxiao, Cao, Yanpeng, Kan, Yanmei, Ni, Dewei
Format: Article
Language:English
Subjects:
A. Ceramic matrix composites
Ablation
Air plasma
B. Raman spectroscopy
B. SEM
Boron oxides
C. High temperature corrosion
C. Oxidation
Ceramic matrix composites
Corrosion
High temperature
Infiltration
Oxidation
Recession
Refractory materials
Silicon dioxide
Sol-gel processes
Three dimensional composites
Zirconium carbide
Zirconium compounds
Zirconium dioxide
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Summary:•Ablation behavior of Cf/SiC-ZrC-ZrB2 under air plasma was studied.•SiO2-ZrO2-B2O3 oxide scale played a predominant role during the ablation.•2000 °C, composites showed positive recession due to active oxidation of SiC. Three-dimensional Cf/SiC-ZrC-ZrB2 composites were fabricated by a joint process of sol-gel and reactive melt infiltration. Ablation test of the composites was performed under air plasma. The composites showed negative recession rates at 1800–2000 °C, while positive recession rates above 2000 °C. Results revealed that dense SiO2-ZrO2-B2O3 layer formed on the sample surface prevented the ablation process extending inward the samples. At higher temperature, active oxidation of SiC and severe evaporation of oxide phase significantly impaired the integrity of the oxide layer and inevitably deteriorated the resistance of the oxide layer to the air plasma.
ISSN:0010-938X
1879-0496
DOI:10.1016/j.corsci.2018.02.011