Preparation and thermal insulation analysis of SiC <ce:inf loc='post'>w</ce:inf>-SiC foam with hollow skeletons via carbon foam template CVI method

Shengjie Yu; Zhaofeng Chen; Yang Wang; Ruiying Luo; Binbin Li; Zhou Chen; Ying Pan

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Preparation and thermal insulation analysis of SiC w-SiC foam with hollow skeletons via carbon foam template CVI method

机译：SiC W 泡沫通过碳泡沫模板CVI方法的制备和保温性分析

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Abstract

SiCw-SiC foams with hollow skeleton were synthesized by a simple procedure that consisted of the chemical vapor infiltration (CVI) and oxidation process. Flexible carbon foam was employed as CVI template. A typical structure of SiCw-SiC foams consisting of SiC supporter with hollow skeleton structure accompanying numerous crooked SiC whiskers was obtained after burning out carbon skeleton of the carbon foam during oxidation process. SiCw-SiC foams have a density of 0.11≤ρ≤0.12g/cm3, porosity ≥96% and a thermal conductivity at room temperature between 0.040 and 0.075W/m·K. Thermal conductivity of the SiCw-SiC foams moderately increased with elevation of temperature, indicating that these foams with larger amount of whiskers exhibit excellent thermal insulation property at elevated temperature.

Highlights

?SiCw-SiC foams with hollow skeleton were synthesized by chemical vapor infiltration of SiC film and SiC whiskers using flexible carbon foam as template.

?The SiCw-SiC foams possess a large number of smaller pores due to the segmentation effect of the SiC whiskers.

?SiCw-SiC foam exhibits an excellent thermal insulation property at high temperature.

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机译：<！[cdata [

抽象

SiC W 带空心的泡沫通过简单的程序合成骨架，该过程由化学蒸气浸润（CVI）和氧化过程组成。柔性碳泡沫用作CVI模板。 SiC W -SIC泡沫，由伴随着许多弯曲的SIC晶须的空心骨架结构组成的SiC支撑件，在碳泡沫期间烧掉碳骨架后获得氧化过程。 SiC W -SIC泡沫的密度为0.11≤3≤0.12g/ cm 3 ，孔隙率≥96％，在室温下的导热率为0.040和0.075w / m·k。 SiC W -SIC泡沫随温度升高，表明这些具有较大晶须的泡沫在升高的温度下表现出优异的绝热性能。

亮点

？ sic W 使用柔性碳泡沫作为模板的SIC膜和SIC晶须的化学蒸气浸润合成了inf> -sic泡沫。

？ sic W -SIC泡沫由于SIC晶须的分割效果，具有大量较小的毛孔。

？ sic W -SIC泡沫在高温下表现出优异的隔热性能。 ]]>

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来源
《Materials Characterization》 |2017年第2017期|共6页
作者
Shengjie Yu; Zhaofeng Chen; Yang Wang; Ruiying Luo; Binbin Li; Zhou Chen; Ying Pan;
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作者单位

International Laboratory for Insulation and Energy Efficiency Materials College of Materials Science and Technology Nanjing University of Aeronautics and Astronautics;

International Laboratory for Insulation and Energy Efficiency Materials College of Materials Science and Technology Nanjing University of Aeronautics and Astronautics;

International Laboratory for Insulation and Energy Efficiency Materials College of Materials Science and Technology Nanjing University of Aeronautics and Astronautics;

Center of Materials Physics and Chemistry School of Physics and Nuclear Energy Engineering Beijing University of Aeronautics and Astronautics;

International Laboratory for Insulation and Energy Efficiency Materials College of Materials Science and Technology Nanjing University of Aeronautics and Astronautics;

School of Mechanical and Power Engineering Nanjing Tech University;

International Laboratory for Insulation and Energy Efficiency Materials College of Materials Science and Technology Nanjing University of Aeronautics and Astronautics;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
Chemical vapor infiltration; Foams; SiC; Thermal conductivity; Whiskers;

机译：化学气相渗透;泡沫;SiC;导热率;晶须;

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Preparation and thermal insulation analysis of SiC w-SiC foam with hollow skeletons via carbon foam template CVI method

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