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Microstructural regulation, oxidation resistance, and mechanical properties of Cf/SiC/SiHfBOC composites prepared by chemical vapor infiltration with precursor infiltration pyrolysis

Yang Lyu, Baihe Du, Guiqing Chen, Guangdong Zhao, Yuan Cheng, Shanbao Zhou, Qingrong Lv, Xinghong Zhang, Wenbo Han

2021Journal of Advanced Ceramics41 citationsDOIOpen Access PDF

Abstract

Abstract To further improve the oxidation resistance of polymer derived ceramic (PDC) composites in harsh environments, C f /SiC/SiHfBOC composites were prepared by chemical vapor infiltration (CVI) and precursor impregnation pyrolysis (PIP) methods. The weight retention change, mechanical properties, and microstructure of C f /SiC/SiHfBOC before and after oxidation in air were studied in details. Microscopic analyses showed that only the interface between the ceramics and fibers was oxidized to some extent, and hafnium had been enriched on the composite surface after oxidizing at different temperature. The main oxidation products of C f /SiC/SiHfBOC composites were HfO 2 and HfSiO 4 after oxidation at 1500 °C for 60 min. Moreover, the weight retention ratio and compressive strength of the C f /SiC/SiHfBOC composites are 83.97% and 23.88±3.11 MPa, respectively. It indicates that the C f /SiC/SiHfBOC composites should be promising to be used for a short time in the oxidation environment at 1500 °C.

Topics & Concepts

Oxidizing agentMaterials scienceChemical vapor infiltrationPyrolysisComposite materialMicrostructureCeramicComposite numberInfiltration (HVAC)Structural materialCeramic matrix compositeChemical engineeringChemistryOrganic chemistryEngineeringAdvanced ceramic materials synthesisAdvanced materials and compositesInnovative concrete reinforcement materials
Microstructural regulation, oxidation resistance, and mechanical properties of Cf/SiC/SiHfBOC composites prepared by chemical vapor infiltration with precursor infiltration pyrolysis | Litcius