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Mechanical properties of organic materials used in superconducting magnets irradiated by gamma rays at liquid nitrogen temperature

液体窒素温度において$$gamma$$線照射された超伝導磁石用有機材料の機械特性

中本 建志*; 出崎 亮; 森下 憲雄; 伊藤 久義; 神谷 富裕; 木村 誠宏*; 槙田 康博*; 荻津 透*; 大畠 洋克*; 山本 明*

Nakamoto, Tatsushi*; Idesaki, Akira; Morishita, Norio; Ito, Hisayoshi; Kamiya, Tomihiro; Kimura, Nobuhiro*; Makida, Yasuhiro*; Ogitsu, Toru*; Ohata, Hirokatsu*; Yamamoto, Akira*

J-PARCニュートリノビームラインにおける超伝導磁石用有機材料について、機械特性の観点から耐放射線性を評価した。液体窒素温度まで冷却した試料に$$gamma$$線を10MGyまで照射し、ガラス繊維強化プラスティック(GFRP)については曲げ試験、ポリイミドフィルムについては引き裂き試験、接着性フィルムについては引張り剪断試験を行った。その結果、これらの有機材料は十分な耐放射線性を有しており、10年間運転後でも機械特性の劣化はほとんど無視できると結論を得た。

Radiation resistance with respect to mechanical properties of organic materials used in the superconducting magnets for the 50 GeV - 750 kW proton beam line for the J-PARC neutrino experiment was studied. Specimens cooled at liquid nitrogen temperature of 77 K were irradiated by gamma rays beyond 10 MGy. The flexural strength of glass-fiber reinforced plastics (GFRPs), the tear strength of polyimide films and the tensile lap-shear strength of adhesive films were evaluated. It was verified that the organic materials used in the superconducting magnet have a sufficient radiation resistance, and the degradation of their mechanical properties after 10 years operation was estimated to be negligible.

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