Oxidation behavior of C/SiC composite with CVD SiC-B4C coating in a wet oxygen environment

Wenbin Yang; Litong Zhang; Laifei Cheng; Yongsheng Liu; Weihua Zhang

doi:10.1007/s10443-008-9077-z

Oxidation behavior of C/SiC composite with CVD SiC-B₄C coating in a wet oxygen environment

Wenbin Yang, Litong Zhang, Laifei Cheng, Yongsheng Liu, Weihua Zhang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

A two-layered self healing coating with a B₄C internal layer and a SiC external layer is prepared on C/SiC composite by chemical vapor deposition (CVD). Microstructure and component of the coating was analyzed by SEM, EDS, and XRD. Oxidation behavior of SiC-B₄C coated C/SiC composite was compared with SiC-SiC coated C/SiC in an environment of P _H2O/P_O2/P_Ar = 14/8/78 at at 700°C, 1,000°C and 1,200°C for 100 h, respectively. It is demonstrated that the SiC-B₄C coating is more efficient to protect the composite from oxidation than SiC-SiC coating below 1,000°C due to the self healing behavior. After oxidized at 700°C for 100 h, the residual flexural strength of SiC-B₄C coated C/SiC is about 86%, and that of SiC-SiC coated is about 64%. While after oxidized at 1,200°C, the former is about 86% and the later is about 89%. This is due to the enhanced evaporation of B ₂O₃ at higher temperature.

Original language	English
Pages (from-to)	83-92
Number of pages	10
Journal	Applied Composite Materials
Volume	16
Issue number	2
DOIs	https://doi.org/10.1007/s10443-008-9077-z
State	Published - Apr 2009

Keywords

Boron carbide
Chemical vapor deposition
Coating
Oxidation behavior
Residual strength
Self healing

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title = "Oxidation behavior of C/SiC composite with CVD SiC-B4C coating in a wet oxygen environment",

abstract = "A two-layered self healing coating with a B4C internal layer and a SiC external layer is prepared on C/SiC composite by chemical vapor deposition (CVD). Microstructure and component of the coating was analyzed by SEM, EDS, and XRD. Oxidation behavior of SiC-B4C coated C/SiC composite was compared with SiC-SiC coated C/SiC in an environment of P H2O/PO2/PAr = 14/8/78 at at 700°C, 1,000°C and 1,200°C for 100 h, respectively. It is demonstrated that the SiC-B4C coating is more efficient to protect the composite from oxidation than SiC-SiC coating below 1,000°C due to the self healing behavior. After oxidized at 700°C for 100 h, the residual flexural strength of SiC-B4C coated C/SiC is about 86%, and that of SiC-SiC coated is about 64%. While after oxidized at 1,200°C, the former is about 86% and the later is about 89%. This is due to the enhanced evaporation of B 2O3 at higher temperature.",

keywords = "Boron carbide, Chemical vapor deposition, Coating, Oxidation behavior, Residual strength, Self healing",

author = "Wenbin Yang and Litong Zhang and Laifei Cheng and Yongsheng Liu and Weihua Zhang",

year = "2009",

month = apr,

doi = "10.1007/s10443-008-9077-z",

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pages = "83--92",

journal = "Applied Composite Materials",

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T1 - Oxidation behavior of C/SiC composite with CVD SiC-B4C coating in a wet oxygen environment

AU - Yang, Wenbin

AU - Zhang, Litong

AU - Cheng, Laifei

AU - Liu, Yongsheng

AU - Zhang, Weihua

PY - 2009/4

Y1 - 2009/4

N2 - A two-layered self healing coating with a B4C internal layer and a SiC external layer is prepared on C/SiC composite by chemical vapor deposition (CVD). Microstructure and component of the coating was analyzed by SEM, EDS, and XRD. Oxidation behavior of SiC-B4C coated C/SiC composite was compared with SiC-SiC coated C/SiC in an environment of P H2O/PO2/PAr = 14/8/78 at at 700°C, 1,000°C and 1,200°C for 100 h, respectively. It is demonstrated that the SiC-B4C coating is more efficient to protect the composite from oxidation than SiC-SiC coating below 1,000°C due to the self healing behavior. After oxidized at 700°C for 100 h, the residual flexural strength of SiC-B4C coated C/SiC is about 86%, and that of SiC-SiC coated is about 64%. While after oxidized at 1,200°C, the former is about 86% and the later is about 89%. This is due to the enhanced evaporation of B 2O3 at higher temperature.

AB - A two-layered self healing coating with a B4C internal layer and a SiC external layer is prepared on C/SiC composite by chemical vapor deposition (CVD). Microstructure and component of the coating was analyzed by SEM, EDS, and XRD. Oxidation behavior of SiC-B4C coated C/SiC composite was compared with SiC-SiC coated C/SiC in an environment of P H2O/PO2/PAr = 14/8/78 at at 700°C, 1,000°C and 1,200°C for 100 h, respectively. It is demonstrated that the SiC-B4C coating is more efficient to protect the composite from oxidation than SiC-SiC coating below 1,000°C due to the self healing behavior. After oxidized at 700°C for 100 h, the residual flexural strength of SiC-B4C coated C/SiC is about 86%, and that of SiC-SiC coated is about 64%. While after oxidized at 1,200°C, the former is about 86% and the later is about 89%. This is due to the enhanced evaporation of B 2O3 at higher temperature.

KW - Boron carbide

KW - Chemical vapor deposition

KW - Coating

KW - Oxidation behavior

KW - Residual strength

KW - Self healing

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JO - Applied Composite Materials

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ER -

Oxidation behavior of C/SiC composite with CVD SiC-B₄C coating in a wet oxygen environment

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