@article{oai:jaxa.repo.nii.ac.jp:00021556,
 author = {後藤, 健 and 八田, 博志 and 塩田, 一路 and 町田, 輝史 and Goto, Ken and Hatta, Hiroshi and Shiota, Ichiro and Machida, Terufumi},
 journal = {材料システム, Materials System},
 month = {Feb},
 note = {Tensile strength and creep behavior of a carbon-carbon composite (C/C) reinforced with a high modulus type PAN based carbon fiber (C/C (M40)) and a C/C reinforced with a low modulus type carbon fiber (C/C (T300)) were examined from room temperature to 2,773 K in an inert atmosphere. Tensile strength of both C/Cs at the elevated temperatures enhanced up to 2,273 K. Over 2,273 K, tensile strength of the C/C (M40) continued to increase, on the other hand, tensile strength of C/C (T300) degraded. Tensile strength of C/C (T300) could not be obtained at 2,773 K due to the decline of applied stress during tensile test by rapid creep deformation. Creep deformation appeared from 1,873 K in both C/Cs regardless to the types of the reinforcing carbon fibers. No variation was found in the activation energy, however, C/C reinforced with a higher modulus carbon fiber exhibited lower stress exponent. The creep resistance of C/Cs could be enhanced by a carbon fiber processed at higher heat treatment temperature. The heat treatment of a C/C itself also enhanced creep resistance, however, its effect could not reach to that from the heat treatment of a carbon fiber., 資料番号: DS0049915001},
 pages = {11--17},
 title = {C/C複合材料の高温強度とクリープ挙動},
 volume = {25},
 year = {2007}
}