The thermal expansion behavior of 3D C/C composites

Xiao Ling Liao; He Jun Li; Guo Dong Sun; Ke Zhi Li

The thermal expansion behavior of 3D C/C composites

Xiao Ling Liao, He Jun Li, Guo Dong Sun, Ke Zhi Li

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Three dimensional braided carbon/carbon composites (3D C/C composites) were fabricated by chemical vapor infiltration. The thermal expansion behavior of these materials with various densities before and after heat treatment was investigated. It is found that PAN-based carbon fibers (CFs) have an obviously negative coefficient of thermal expansion (CTE) after heat treatment at 1200°C. The CTE of the 3D C/C composites is negative from room temperature to 100°C and is proportion to their density. In the temperature range of 100-1000°C, CTE vs. T curves have an almost a constant slope and expansion behavior of the composite is similar to that of pyrocarbon. When the temperature is above 1000°C, a peak is found in the CTE vs. T curves, indicating that expansion of the pyrocarbon is limited by CFs and the thermal expansion behavior of the composites is determined by both CFs and matrix.

Original language	English
Pages (from-to)	60-64
Number of pages	5
Journal	Xinxing Tan Cailiao/New Carbon Materials
Volume	25
Issue number	1
State	Published - Feb 2010

Keywords

3D C/C composites
Coefficient of thermal expansion (CTE)
Heat treatment
Microstructure

Cite this

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title = "The thermal expansion behavior of 3D C/C composites",

abstract = "Three dimensional braided carbon/carbon composites (3D C/C composites) were fabricated by chemical vapor infiltration. The thermal expansion behavior of these materials with various densities before and after heat treatment was investigated. It is found that PAN-based carbon fibers (CFs) have an obviously negative coefficient of thermal expansion (CTE) after heat treatment at 1200°C. The CTE of the 3D C/C composites is negative from room temperature to 100°C and is proportion to their density. In the temperature range of 100-1000°C, CTE vs. T curves have an almost a constant slope and expansion behavior of the composite is similar to that of pyrocarbon. When the temperature is above 1000°C, a peak is found in the CTE vs. T curves, indicating that expansion of the pyrocarbon is limited by CFs and the thermal expansion behavior of the composites is determined by both CFs and matrix.",

keywords = "3D C/C composites, Coefficient of thermal expansion (CTE), Heat treatment, Microstructure",

author = "Liao, {Xiao Ling} and Li, {He Jun} and Sun, {Guo Dong} and Li, {Ke Zhi}",

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AU - Liao, Xiao Ling

AU - Li, He Jun

AU - Sun, Guo Dong

AU - Li, Ke Zhi

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N2 - Three dimensional braided carbon/carbon composites (3D C/C composites) were fabricated by chemical vapor infiltration. The thermal expansion behavior of these materials with various densities before and after heat treatment was investigated. It is found that PAN-based carbon fibers (CFs) have an obviously negative coefficient of thermal expansion (CTE) after heat treatment at 1200°C. The CTE of the 3D C/C composites is negative from room temperature to 100°C and is proportion to their density. In the temperature range of 100-1000°C, CTE vs. T curves have an almost a constant slope and expansion behavior of the composite is similar to that of pyrocarbon. When the temperature is above 1000°C, a peak is found in the CTE vs. T curves, indicating that expansion of the pyrocarbon is limited by CFs and the thermal expansion behavior of the composites is determined by both CFs and matrix.

AB - Three dimensional braided carbon/carbon composites (3D C/C composites) were fabricated by chemical vapor infiltration. The thermal expansion behavior of these materials with various densities before and after heat treatment was investigated. It is found that PAN-based carbon fibers (CFs) have an obviously negative coefficient of thermal expansion (CTE) after heat treatment at 1200°C. The CTE of the 3D C/C composites is negative from room temperature to 100°C and is proportion to their density. In the temperature range of 100-1000°C, CTE vs. T curves have an almost a constant slope and expansion behavior of the composite is similar to that of pyrocarbon. When the temperature is above 1000°C, a peak is found in the CTE vs. T curves, indicating that expansion of the pyrocarbon is limited by CFs and the thermal expansion behavior of the composites is determined by both CFs and matrix.

KW - 3D C/C composites

KW - Coefficient of thermal expansion (CTE)

KW - Heat treatment

KW - Microstructure

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M3 - 文章

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JF - Xinxing Tan Cailiao/New Carbon Materials

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The thermal expansion behavior of 3D C/C composites

Abstract

Keywords

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