Ablation behavior of a carbon fabric reinforced phenolic composite modified by surface-decorated ZrB2/SiC

Feng Xu, Shizhen Zhu*, Jingdan Hu, Zhuang Ma, Yanbo Liu

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

10 Citations (Scopus)

Abstract

Carbon fabric reinforced phenolic composites were widely used as TPSs (thermal protection system) material in the aerospace industry. However, their limited oxidative ablation resistance restricted their further utility in more serious service conditions. In this study, the surface-decorated ZrB2/SiC and its modified carbon fabric reinforced phenolic composites have been successfully prepared. The self-modification mechanism of the surface-decorated ZrB2/SiC particles were characterized. The mechanical performance and ablation behavior of the composites were investigated. Results showed that the ZrB2/SiC particles possessed a good surface-decorated effect, which achieved good compatibility with the phenolic resin. The mechanical performance of the modified phenolic composite was effectively improved. The anti-oxidative ablation performance of the composite was improved. The mass ablation rate of the surface-decorated ZrB2-SiC-modified carbon fabric reinforced phenolic composites was 25% lower than that of the unmodified composites. The formed ZrO2 ceramic layer attached to the surface of the residual chars prevented the heat energy and oxygen from the inner material. Meanwhile, the volatilization of SiO2 and B2O2 effectively increased the heat dissipation. All these results confirmed that the ZrB2-SiC particles can effectively improve the ablation resistance of the composite, which provided a basis for the application of the composites to more serious service environments.

Original languageEnglish
Article number256
JournalMaterials
Volume13
Issue number2
DOIs
Publication statusPublished - 1 Jan 2020

Keywords

  • Ablation behavior
  • Carbon fabric reinforced phenolic composite
  • Mechanical performance
  • Surface-decorated ZrB-SiC

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