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Ablation behaviour of Cf–ZrC-SiC with and without rare earth metal oxide dopants
Open ceramics, 2022-06, Vol.10, p.100270, Article 100270
[Peer Reviewed Journal]
2022 The Authors ;ISSN: 2666-5395 ;EISSN: 2666-5395 ;DOI: 10.1016/j.oceram.2022.100270
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Title:
Ablation behaviour of Cf–ZrC-SiC with and without rare earth metal oxide dopants
Author:
Tammana, S.R.C. Murthy
;
Duan, Mengyuan
;
Zou, Ji
;
Wade, James
;
Venkatachalam, Vinothini
;
Baker, Ben
;
Nayebossadri, Shahrouz
;
Binner, Jon
Subjects:
Ablation
;
Carbon fibre preforms
;
Microstructure
;
Rare earth metal oxides
;
Silicon carbide
;
Slurry impregnation
;
Zirconium carbide
Is Part Of:
Open ceramics, 2022-06, Vol.10, p.100270, Article 100270
Description:
Continuous carbon fibre/carbon composites are candidates for ultra-high temperature applications due to their ability to retain their strength at elevated temperatures, however they easily oxidize and ablate in high temperature oxygen-based environments, a fact that seriously limits their applications in the aerospace industry. The introduction of ultra-high temperature ceramics (UHTCs) as a matrix in carbon fibre preforms effectively improves their oxyablation resistance at ultra-high temperatures in air atmospheres. In the present study, zirconium carbide-based ultra-high temperature ceramic matrix composites (UHTCMCs) simultaneously doped with silicon carbide and rare earth (RE) metal oxides were prepared by a slurry impregnation and pyrolysis method using phenolic resin as the bonding agent. The combination of injection and vacuum impregnation achieved a maximum density of up to 60% of theoretical. These composites were subsequently evaluated in terms of their ablation properties using an oxyacetylene (OAT) torch at temperatures of ∼2500 °C for 60 s. No significant surface damage was observed on any of the ablated samples. When ceria was used as the RE metal oxide dopant, the evidence suggests that cerium silicate was formed by the ceria dissolving in the molten silica; though this didn't appear to offer very much additional oxyablative protection. In contrast, when yttria was used, it improved the performance via stabilization of the cubic zirconia that formed on oxidation; this provided the greatest protection of all the samples tested. The combination of both ceria and yttria yielded the combined mechanism. •ZrC based UHTCMCs doped with SiC and RE oxides prepared by SIP method.•The combination of injection and vacuum impregnation achieved a density of 60%TD.•No significant surface damage was observed on any of the ablated samples.•Cerium silicate was formed, when ceria was used as the dopant.•Cubic zirconia has formed on oxidation when yttria was used as the dopant.
Publisher:
Elsevier Ltd
Language:
English
Identifier:
ISSN: 2666-5395
EISSN: 2666-5395
DOI: 10.1016/j.oceram.2022.100270
Source:
DOAJ Directory of Open Access Journals
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