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International Heat Transfer Conference 15

ISSN: 2377-424X (online)
ISSN: 2377-4371 (flashdrive)

The Influence of Carbon Fiber Composite Material Structures on the Spectral Attenuation Properties of Thermal Radiation

Ming Xie
School of Energy Science and Engineering, Harbin Institute of Technology, 92 West Dazhi Street, Harbin 150001, P.R. China

Qing Ai
School of Energy Science and Engineering, Harbin Institute of Technology, 92, West Dazhi Street, Harbin 150001, P.R. China

Xiaochen Xie
Research Institute of Intelligent Control and Systems, Harbin Institute of Technology

Liu Yang
School of Energy Science and Engineering, Harbin Institute of Technology

Heping Tan
Key Laboratory of Aerospace Thermophysics of MIIT, School of Energy Science of Engineering, Harbin Institute of Technology, Harbin 150001, China

DOI: 10.1615/IHTC15.rad.009478
pages 7223-7236


MOTS CLÉS: Radiation, Numerical simulation and super-computing, Computational methods, Finite difference time domain (FDTD), Carbon fiber composite material, Woven carbon fiber structures, Spectral attenuation properties of thermal radiation

Résumé

To investigate the spectral properties of thermal radiation of carbon fibers in micron, each of which can be regarded as an infinite translucent cylinder, this paper begins with the comparison of the scattering intensity distributions of a single carbon fiber respectively obtained by Mie approximation theory and the finite difference time domain (FDTD) method, and the reliability of FDTD is proven. Based on the FDTD method, solutions to the spectral attenuation properties including scattering factors and absorbed factors of multi-dimensional woven carbon fiber structures are considered. This paper analyzes the influences of different carbon fiber radii, vertical layers, horizontal and longitudinal intervals as well as the back ground refractive indices on the spectral attenuation properties of two kinds of woven carbon fiber material structures i.e. in 2-Dimension (2-D) and 2.5-Dimension (2.5-D), respectively. For the simplified 2-D and 2.5-D woven carbon fiber structures, the results show that the structures of carbon fiber composite material can greatly influence the spectral attenuation properties of thermal radiation, and different kinds of woven structures will show obviously different spectral attenuation properties. Besides, a comparison of scattering intensity distributions with the equivoluminal carbon bulk structure approximation is conducted, which shows that regarding the woven structure as a simplified bulk material structure may cause serious errors to the spectral attenuation properties of thermal radiation, because they can be very different from those of the practical woven carbon fiber structure.

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