Effect of Heat Treatment on Interfacial Compatibility of Mesophase Pitch - Carbon Fiber Binding

被引：0

作者：

Ouyang T. ^{[1
,2
]}

Chen Y. ^{[1
]}

Jiang Z. ^{[1
]}

Li G. ^{[1
,2
]}

机构：

[1] College of Materials Science and Engineering, Hunan University, Changsha

[2] Hunan Provincial Key Laboratory for Advanced Carbon Materials and Applied Technology, Changsha

来源：

Hunan Daxue Xuebao/Journal of Hunan University Natural Sciences | 2021年 / 48卷 / 06期

关键词：

Carbon fiber network; Carbon fibers; Composite; Mesophase pitch; Preoxidation;

D O I：

10.16339/j.cnki.hdxbzkb.2021.06.004

中图分类号：

学科分类号：

摘要：

Mesophase pitch suffers severe expansion during carbonization due to the escape of light components, which significantly affect the interfacial compatibility of carbon fiber reinforced composites where mesophase pitch is used as binders or matrix. In this work, the effects of oxidation treatment on pitch fibers thermal stability, carbon yield, crystalline structure and dispersivity in alcohol aqueous solution were analyzed by TG, XRD and SEM. The fibers oxidized at 270℃ for 150 min were then selected for further study on the influence of carbonization conditions. It was found that the diameter of carbon fibers(CFs) carbonized at 700~900℃ changed significantly as observed by the optical microscope. The influence of carbonization temperature on interface compatibility between carbon fiber and mesophase pitch binders in carbon bonded carbon fiber composites was investigated using FTIR and SEM. The results show that the interface between CF carbonization at 500℃ and binder was smooth and crack-free, showing excellent interface compatibility. As CFs carbonized at 500℃ and mesophase pitch can experience a similar high-temperature carbonization process, during which a major transformation process of carbon structure occurs, the composite can be obtained with enhanced interfacial properties. © 2021, Editorial Department of Journal of Hunan University. All right reserved.

引用

页码：24 / 29

页数：5

共 24 条

[1] ZHANG Y C, JIA C C, JIA P., Electrically and thermally conductive performance of mesocarbon microbeads/cyanate ester resin composites, Acta Materiae Compositae Sinica, 36, 3, pp. 602-610, (2019)
[2] KLETT J, HARDY R, ROMINE E, Et al., High-thermal-conductivity, mesophase-pitch-derived carbon foams: effect of precursor on structure and properties, Carbon, 38, 7, pp. 953-973, (2000)
[3] GAO S, VILLACORTA B S, GE L, Et al., Effect of rheological properties of mesophase pitch and coal mixtures on pore development in activated carbon discs with high compressive strength, Fuel Processing Technology, 177, pp. 219-227, (2018)
[4] KORAI Y, ISHIDA S, WATANABE F, Et al., Preparation of carbon fiber from isotropic pitch containing mesophase spheres, Carbon, 35, 12, pp. 1733-1737, (1997)
[5] NAITO K, YANG J M, KAGAWA Y., Development of high modulus/high strength carbon fiber reinforced nanoparticle filled polyimide based multiscale hybrid composites, Materials Science Forum, 654, pp. 2620-2623, (2010)
[6] BERONSKA N, STEFANIK P, IZDINSKY K., Thermal conductivity and thermal expansion of copper matrix composites reinforced with high modulus C fibres, Defect and Diffusion Forum, pp. 820-825, (2010)
[7] LIU H, LI K Z, LI H J, Et al., Pyrocarbon transition layer and microstructure of mesophase pitch based carbon/carbon fiber composites, New Carbon Materials, 25, 4, pp. 297-302, (2010)
[8] FENG Z H, FAN Z, KONG Q, Et al., Preparation of high thermal conductivity C/C composite, Journal of Shanghai University (Natural Science), 20, 1, pp. 51-58, (2014)
[9] FATHOLLAHI B, CHAU P C, WHITE J L., Injection and stabilization of mesophase pitch in the fabrication of carbon-carbon composites: part II. stabilization process, Carbon, 43, 1, pp. 135-141, (2005)
[10] ZHAO Y, LIU Z J, WANG H Q, Et al., Microstructure and thermal/mechanical properties of short carbon fiber-reinforced natural graphite flake composites with mesophase pitch as the binder, Carbon, 53, pp. 313-320, (2013)

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