Experimental study on thermophysical properties of C/C composites at high temperature 被引量：2

Experimental study on thermophysical properties of C/C composites at high temperature

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摘要 The coefficient of thermal expansion, thermal diffusivity and specific heat of C/C composites from room temperature to ultra high temperature were experimentally investigated. Thermal conductivity and thermal stress resistance of the composites were therefore computed based on experimental results. The results show that the composite has a very low thermal expansion coefficient. Thermal diffusivity decreases exponentially with temperature increase. The specific heat increases linearly as the temperature rises, and the variation trend of thermal conductivity is similar to that of thermal diffusivity. The thermal stress coefficient of C/C composite has little change with temperature variation, and thermal stress resistance of the composite at high temperature is stable. The coefficient of thermal expansion, thermal diffusivity and specific heat of C/C composites from room temperature to ultra high temperature were experimentally investigated. Thermal conductivity and thermal stress resistance of the composites were therefore computed based on experimental results. The results show that the composite has a very low thermal expansion coefficient. Thermal diffusivity decreases exponentially with tem- perature increase. The specific heat increases linearly as the temperature rises, and the variation trend of thermal conductivity is similar to that of thermal diffusivity. The thermal stress coefficient of C/C composite has little change with temperature variation, and thermal stress resistance of the composite at high temperature is stable.

作者张巍易法军韩杰才孟松鹤

机构地区 Center for Composite Materials

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2006年第3期286-288,共3页 哈尔滨工业大学学报（英文版）

关键词 C/C composites coefficient of thermal expansion thermal conductivity C/C复合材料热膨胀系数导热性高温实验研究

分类号 TB33 [一般工业技术—材料科学与工程]

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2戴景民,杨茂华,褚载祥.多波长辐射测温仪及其应用[J].红外与毫米波学报,1995,14(6):461-466. 被引量：28
3赵建国,李克智,李贺军,李爱军,席琛.碳/碳复合材料导热性能的研究[J].航空学报,2005,26(4):501-504. 被引量：25
4梅瑛,程志刚,黄莉.温度对容器设计的影响[J].中北大学学报（自然科学版）,2006,27(3):210-214. 被引量：1
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6Manocha L M, Warrier A, Manocha S, et al. Thermophysical properties of densified pitch based carbon/carbon materials-I. Unidirectional composites[J]. Carbon, 2006, 44(8) : 480-487.
7Taylor R E. Survey on direct heating methods for high-temperature thermophysical property measurements of solids [J]. High Temperature-High Pressures, 1972, 4(5): 523-531.
8Luo Ruiying, Liu Tao, Li Jinsong, et al. Thermophysical properties of carbon/carbon composites and physical mechanism of thermal expansion and thermal conductivity[J]. Carbon, 2004, 42(14): 2887-2895.
9Zhao Jianguo, Li Kezhi, Li Hejun, et al. The thermal expansion of carbon/carbon composites from room temperature to 1400℃[J]. Journal of Materials Science, 2006, 41(24): 8356-8358.
10Cheng Laifei, Xu Yongdong, Zhang I.itong, et al. Effect of heat treatment on the thermal expansion of 2D and 3D C/SiC composites from room temperature to 1400 ℃[J]. Carbon, 2002, 41(8); 1645-1687.

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Journal of Harbin Institute of Technology(New Series)

2006年第3期

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Experimental study on thermophysical properties of C/C composites at high temperature 被引量：2

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