ZrB<SUB>2</SUB>/C复合材料的性能及微观结构研究

无机材料学报, 2006, 21(4): 946-952. doi: 10.3724/SP.J.1077.2006.00946

ZrB₂/C复合材料的性能及微观结构研究

1.1. 中国科学院山西煤炭化学研究所炭材料重点实验室, 太原 030001

2. 2. 中国科学院研究生院, 北京 100049

1.1. Key Laboratory of Carbon Materials, Institute of Coal Chemistry, Chinese Academy of Sciences, Taiyuan 030001, China

2. 2. Graduate school, Chinese Academy of Sciences, Beijing 100049, China

关键词： ZrB2/C复合材料 , bending strength , thermal conductivity , electrical resistivity

Properties and Microstructure of ZrB₂/C Composites

LI Xiu-Tao , SHI Jing-Li , GUO Quan-Gui , ZHAI Geng-Tai , LIU Lang

Keywords： ZrB2/C composites , 抗弯强度 , 热导率 , 电阻率

采用热压工艺制备了ZrB₂/C 复合材料, 考察了ZrB₂掺杂量对材料抗弯强度、热导率、电阻率的影响以及微观结构的变化. 结果表明: 随ZrB₂含量增加, 材料抗弯强度和热导率不断升高, 在掺杂量为10%时, 抗弯强度达到最大值131MPa, 热导率达到161W/m·K的最大值, 此后, 抗弯强度和热导率随掺杂量增加而降低. 然而, 材料的电阻率随ZrB₂含量的增加不断下降. 微观结构分析表明, 随着ZrB2掺杂量增加, 材料的石墨化度和微晶尺寸增大, 晶面层间距减小. 材料的微观结构强烈地影响着材料的力学、导电、导热等宏观性能.

ZrB₂/C composites were prepared by a hot-pressing method. The influence of dopants on the flexural strength, thermal conductivity, electrical resistivity and microstructure of these composites was investigated. Results show that the flexural strength and thermal conductivity increase with increasing ZrB₂ content up to a maximum of 131MPa and 161W/m·K at 10% addition, respectively. But the electrical resistivity reduces rapidly with increasing the concentration of ZrB₂. Correlations between the content of dopant and properties and microstructure of ZrB₂/C composites were also discussed.

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材料期刊网

ZrB2/C复合材料的性能及微观结构研究

Properties and Microstructure of ZrB2/C Composites

参考文献

ZrB₂/C复合材料的性能及微观结构研究

Properties and Microstructure of ZrB₂/C Composites