Effects of carbon nanotubes and carbon fiber reinforcements on thermal conductivity and ablation properties of carbon/phenolic composites

The ablation properties and thermal conductivity of carbon nanotube (CNT) and carbon fiber (CF)/phenolic composites were evaluated for different filler types and structures. It was found that the mechanical and thermal properties of phenolic-polymer matrix composites were improved significantly by t...

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Bibliographic Details
Published in:Composites. Part B, Engineering Engineering, 2014-12, Vol.67, p.22-29
Main Authors: Park, Joung-Man, Kwon, Dong-Jun, Wang, Zuo-Jia, Roh, Jeong-U, Lee, Woo-Il, Park, Jong-Kyoo, Lawrence DeVries, K.
Format: Article
Language:English
Subjects:
A. Carbon fiber
Ablation
Applied sciences
B. Thermal properties
C. Micro-mechanics
Carbon
Carbon fiber reinforced plastics
Carbon nanotubes
D. Thermal analysis
Exact sciences and technology
Forms of application and semi-finished materials
Heat transfer
Laminates
Polymer industry, paints, wood
Polymer matrix composites
Reinforcement
Technology of polymers
Thermal conductivity
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Summary:The ablation properties and thermal conductivity of carbon nanotube (CNT) and carbon fiber (CF)/phenolic composites were evaluated for different filler types and structures. It was found that the mechanical and thermal properties of phenolic-polymer matrix composites were improved significantly by the addition of carbon materials as reinforcement. The concentrations of CF and CNT reinforcing materials used in this study were 30vol% and 0.5wt%, respectively. The thermal conductivity and thermal diffusion of the different composites were observed during ablation testing, using an oxygen–kerosene (1:1) flame torch. The thermal conductivity of CF mat/phenolic composites was higher than that of random CF/phenolic composites. Both CF mat and CNT/phenolic composites exhibited much better thermal conductivity and ablation properties than did neat phenolic resin. The more conductive carbon materials significantly enhanced the heat conduction and dissipation from the flame location, thereby minimizing local thermal damage.
ISSN:1359-8368
1879-1069
DOI:10.1016/j.compositesb.2014.06.022