The oxidation behaviour of C/ZrB-SiC with different fibre architectures, manufactured by slurry impregnation, polymer infiltration and mild pyrolysis, was investigated. Short term oxidation tests in air were performed for 1 min and 5 min at 1500 °C and 1650 °C in a bottom loading furnace. Microstructure, oxide scale thickness and composition were analysed by SEM/EDS/XRD. Results indicated that a good dispersion of ZrB particles in the polymer derived SiC(O) matrix promoted the formation of compact scales filling surface holes left by fibre oxidation. 20-30 vol% of ZrB in the material was found a good compromise between lightness and oxidation resistance.
Significant improvement of the self-protection capability of ultra-high temperature ceramic matrix composites
Servadei FPrimo
Writing – Original Draft Preparation
;Zoli L
Secondo
Methodology
;Vinci AWriting – Review & Editing
;Galizia PWriting – Review & Editing
;Sciti DUltimo
Supervision
2021
Abstract
The oxidation behaviour of C/ZrB-SiC with different fibre architectures, manufactured by slurry impregnation, polymer infiltration and mild pyrolysis, was investigated. Short term oxidation tests in air were performed for 1 min and 5 min at 1500 °C and 1650 °C in a bottom loading furnace. Microstructure, oxide scale thickness and composition were analysed by SEM/EDS/XRD. Results indicated that a good dispersion of ZrB particles in the polymer derived SiC(O) matrix promoted the formation of compact scales filling surface holes left by fibre oxidation. 20-30 vol% of ZrB in the material was found a good compromise between lightness and oxidation resistance.| File | Dimensione | Formato | |
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