Preparation and characterization of SiO2/carbon foam and SiC/carbon foam composites

Xiao Dong Wu; Gao Feng Shao; Sheng Cui; Ling Wang; Xiao Dong Shen

doi:10.11862/CJIC.2015.161

Preparation and characterization of SiO₂/carbon foam and SiC/carbon foam composites

Xiao Dong Wu, Gao Feng Shao, Sheng Cui, Ling Wang, Xiao Dong Shen

材料科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The synthesis and characterization of carbon foam supported silica aerogel (SiO₂/Carbon foam) and silicon carbide composite (SiC/Carbon foam) are presented in this study. The phase composition’ microstructure, thermal and mechanical properties are investigated by XRD, SEM, LFA Laser Flashmeasurements, and Universal Material Testing.The resulting SiO₂/Carbon foam composite shows a higher compressive strength (14.95 MPa) and a smaller thermal conductivity (0.44 W•m^-1•K^-1) at room temperature’ in comparison with the pristine carbon foam. The SiC/Carbon foam composite maintains a compressive strength of 14.66 MPa’ and possesses a low high- temperature thermal conductivity (2.18 W•m^-1•K^-1 at 1 200 °C). Mass loss does not begin until 610 °C for the SiC/Carbon foam composite’ and complete carbon combustion does not occur until 844 °C, indicating a much better thermal stability than the pristine carbon foam in oxidizing atmosphere.

源语言	英语
页（从-至）	1252-1260
页数	9
期刊	Chinese Journal of Inorganic Chemistry
卷	31
期	6
DOI	https://doi.org/10.11862/CJIC.2015.161
出版状态	已出版 - 1 1月 2015

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10.11862/CJIC.2015.161

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title = "Preparation and characterization of SiO2/carbon foam and SiC/carbon foam composites",

abstract = "The synthesis and characterization of carbon foam supported silica aerogel (SiO2/Carbon foam) and silicon carbide composite (SiC/Carbon foam) are presented in this study. The phase composition{\textquoteright} microstructure, thermal and mechanical properties are investigated by XRD, SEM, LFA Laser Flashmeasurements, and Universal Material Testing.The resulting SiO2/Carbon foam composite shows a higher compressive strength (14.95 MPa) and a smaller thermal conductivity (0.44 W•m-1•K-1) at room temperature{\textquoteright} in comparison with the pristine carbon foam. The SiC/Carbon foam composite maintains a compressive strength of 14.66 MPa{\textquoteright} and possesses a low high- temperature thermal conductivity (2.18 W•m-1•K-1 at 1 200 °C). Mass loss does not begin until 610 °C for the SiC/Carbon foam composite{\textquoteright} and complete carbon combustion does not occur until 844 °C, indicating a much better thermal stability than the pristine carbon foam in oxidizing atmosphere.",

keywords = "Carbon foam, Compressive strength, SiO, Silicon carbide, Thermal conductivity, Thermal stability",

author = "Wu, {Xiao Dong} and Shao, {Gao Feng} and Sheng Cui and Ling Wang and Shen, {Xiao Dong}",

year = "2015",

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AU - Wu, Xiao Dong

AU - Shao, Gao Feng

AU - Cui, Sheng

AU - Wang, Ling

AU - Shen, Xiao Dong

PY - 2015/1/1

Y1 - 2015/1/1

N2 - The synthesis and characterization of carbon foam supported silica aerogel (SiO2/Carbon foam) and silicon carbide composite (SiC/Carbon foam) are presented in this study. The phase composition’ microstructure, thermal and mechanical properties are investigated by XRD, SEM, LFA Laser Flashmeasurements, and Universal Material Testing.The resulting SiO2/Carbon foam composite shows a higher compressive strength (14.95 MPa) and a smaller thermal conductivity (0.44 W•m-1•K-1) at room temperature’ in comparison with the pristine carbon foam. The SiC/Carbon foam composite maintains a compressive strength of 14.66 MPa’ and possesses a low high- temperature thermal conductivity (2.18 W•m-1•K-1 at 1 200 °C). Mass loss does not begin until 610 °C for the SiC/Carbon foam composite’ and complete carbon combustion does not occur until 844 °C, indicating a much better thermal stability than the pristine carbon foam in oxidizing atmosphere.

AB - The synthesis and characterization of carbon foam supported silica aerogel (SiO2/Carbon foam) and silicon carbide composite (SiC/Carbon foam) are presented in this study. The phase composition’ microstructure, thermal and mechanical properties are investigated by XRD, SEM, LFA Laser Flashmeasurements, and Universal Material Testing.The resulting SiO2/Carbon foam composite shows a higher compressive strength (14.95 MPa) and a smaller thermal conductivity (0.44 W•m-1•K-1) at room temperature’ in comparison with the pristine carbon foam. The SiC/Carbon foam composite maintains a compressive strength of 14.66 MPa’ and possesses a low high- temperature thermal conductivity (2.18 W•m-1•K-1 at 1 200 °C). Mass loss does not begin until 610 °C for the SiC/Carbon foam composite’ and complete carbon combustion does not occur until 844 °C, indicating a much better thermal stability than the pristine carbon foam in oxidizing atmosphere.

KW - Carbon foam

KW - Compressive strength

KW - SiO

KW - Silicon carbide

KW - Thermal conductivity

KW - Thermal stability

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M3 - 文章

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SN - 1001-4861

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JO - Chinese Journal of Inorganic Chemistry

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Preparation and characterization of SiO2/carbon foam and SiC/carbon foam composites

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Preparation and characterization of SiO₂/carbon foam and SiC/carbon foam composites