Fabrication of Carbon Fiber/SiSiC Composites and Their Mechanical Properties

机译：碳纤维/ SiSiC复合材料的制备及其力学性能

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A carbon woven fabric (≈55 vol%)/carbon and a chopped carbon fiber (≈40 vol%)/carbon preforms were reaction-bonded with a silicon melt at 1700℃ in a vacuum to fabricate dense carbon fiber/SiSiC composites. The carbon woven fabric/carbon with the density of 1.6 g/cm~3 (3-pt bending strength of 50 MPa and work of fracture of 987 J/m~2 ) were converted to a carbon woven fabric/SiSiC which showed the values of 1.9 g/cm~3,112 MPa and 1390 J/m~2, respectively. In the case of the transition of chopped fiber/carbon to the carbon fiber/SiSiC, the density was increased significantly from 1.15 g/cm~3 to 1.9 g/cm~3. This work showed that a one-step reaction-bonding process for the carbon fiber composites increased the density and mechanical properties significantly.

机译：将碳织布（≈55vol％）/碳和切碎的碳纤维（≈40vol％）/碳预成型坯与硅熔体在真空中于1700℃反应粘合，以制造致密的碳纤维/ SiSiC复合材料。将密度为1.6 g / cm〜3（3磅弯曲强度为50 MPa，断裂功为987 J / m〜2）的碳纤维织物/碳转变为碳纤维织物/ SiSiC，其值如下：分别为1.9 g / cm〜3,112 MPa和1390 J / m〜2。在短切纤维/碳转变为碳纤维/ SiSiC的情况下，密度从1.15g / cm〜3显着增加到1.9g / cm〜3。这项工作表明，碳纤维复合材料的一步反应粘合工艺可以显着提高密度和机械性能。

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来源
《High temperature ceramic matrix compositei III》|1998年|19-22|共4页
会议地点 Osaka(JP);Osaka(JP);Osaka(JP);Osaka(JP)
作者
D.-W. Shin; I.-S. Kim; S.-S. Park;
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作者单位

Kyongsang National University, Division of Materials Science and Engineering, AMRI, Ceramic Matrix Composites Lab. Kyongnam, Chinju 660-701, Korea;

National Institute of Ceramic Technology, Seoul 152-023, Korea;

Kyongsang National University, Division of Materials Science and Engineering, AMRI, Ceramic Matrix Composites Lab. Kyongnam, Chinju 660-701, Korea;

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会议组织
原文格式 PDF
正文语种 eng
中图分类 TQ174.58;
关键词
carbon fiber/SiSiC; reaction-bonding process; mechanical properties;

机译：碳纤维/ SiSiC；反应键合过程机械性能;

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Fabrication of Carbon Fiber/SiSiC Composites and Their Mechanical Properties

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