Title :
Evaluation of thermal conductivity of unidirectional SiC composite enhanced with carbon fibers
Author :
Kim, S.H. ; Gwon, H.S. ; Ksasada, R. ; Konishi, Satoshi ; Hinoki, T. ; Yoon, H.K. ; Ozawa, K. ; Nozawa, Takuya
Author_Institution :
Inst. of Adv. Energy, Kyoto Univ., Uji, Japan
Abstract :
The authors have proposed a new divertor concept using SiC composite with directional high thermal conductivity enhanced with fiber as substrate of the divertor structure in fusion reactor. In this study, unidirectional SiC composite with pitch-based carbon fibers (UD-Cf/SiC) was fabricated as the model material. The thermal conductivity (or thermal diffusivity) in directions parallel (0°), inclined (45°), and transverse (90°) to the Cf orientation was measured by the laser flash method. The results were compared with monolithic SiC (mono-SiC) in order to evaluate the enhancement of thermal conductivity by an introduction of Cf. Although the thermal conductivity of the UD-Cf/SiC in directions of 45° and 90° was relatively lower than that of the mono-SiC, that of the UD-Cf/SiC in direction of 0° was ten times as large as that of the mono-SiC.
Keywords :
fusion reactor design; fusion reactor divertors; directional high thermal conductivity; divertor concept; divertor structure substrate; divertor system; fusion reactor; laser flash method; monolithic silicon carbide; pitch-based carbon fibers; thermal conductivity evaluation; thermal diffusivity; unidirectional silicon carbide composite; Conductivity; Equations; Heating; Materials; Mathematical model; Silicon carbide; Thermal conductivity; fusion divertor; laser flash; thermal conductivity; unidirectional Cf/SiC;
Conference_Titel :
Fusion Engineering (SOFE), 2013 IEEE 25th Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4799-0169-2
DOI :
10.1109/SOFE.2013.6635427
