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Study of carbon films from PAN/VGCF composites by gelation/crystallization from solution
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| Zhu, Dan;Xu, Chunye;Nakura, Norie;Matsuo, Masaru 单 位: Dept. of Cl Carbon v 40 n 3 March 2002. p 363-373 |
关键词 Carbon fibers;Gelation;Crystallization;Composite materials;Heat treatment;Electric conductivity;Elastic moduli;Fourier transform infrared spectroscopy;X ray diffraction analysis 摘 要A carbon film with a cross-sectional area much larger than that of a commercial carbon fiber ( greater than 6000 times) and a thickness of about 0.3 mm was obtained using a new method.In this method, composite materials of polyacrylonitrile (PAN) and vapor-grown carbon fiber (VGCF) prepared by gelation/crystallization from dilute solutions were used as starting materials The gelation/crystallization method was adopted to ensure high orientation of PAN chains. The composite materials were heat-treated at 200-300 degree C in an oxidizing atmosphere for thermal stabilization and then heat-treated to 1500 degree C in argon gas to promote carbonization. The tensile modulus and electric conductivity for the carbon materials with cross-sectional areas of about 0.6 mm **2 (thickness 0.3 mm and width 2 mm) reached 18 GPa and 10 Omega**-**1 cm**-**1, respectively.The mechanical and electrical properties of the final carbonized materials were sensitive to the PAN/VGCF composition and the draw ratio.These phenomena were analyzed using Fourier transform IR and X-ray diffraction. copy 2002 Elsevier Science Ltd.All rights reserved.
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