Wakui Takashi

ワクイタカシ | Wakui Takashi

Affiliation and department：
Research theme for competitive and other funds (2)：

Papers (39)：

Wakui Takashi, Takagishi Yoichi*, Futakawa Masatoshi. Cavitation damage prediction in mercury target for pulsed spallation neutron source using Monte Carlo simulation. Materials. 2023. 16. 17. 5830\_1-5830\_16
Wakui Takashi, Takagishi Yoichi*, Futakawa Masatoshi, Tanabe Makoto*. Cavitation damage prediction in mercury target for pulsed spallation neutron sources by Monte Carlo simulation. Jikken Rikigaku. 2023. 23. 2. 168-174
Wakui Takashi, Yamasaki Kazuhiko*, Futakawa Masatoshi. Material properties evaluation on radiation shielding lead glasses irradiated by pulsed laser. Advanced Experimental Mechanics. 2022. 7. 103-109
Wakui Takashi, Yamasaki Kazuhiko*, Futakawa Masatoshi. Effect of pulsed laser irradiation on the micro-plastic behavior of radiation shielding lead glasses. Jikken Rikigaku. 2022. 22. 2. 96-104
Haga Katsuhiro, Kogawa Hiroyuki, Naoe Takashi, Wakui Takashi, Wakai Eiichi, Futakawa Masatoshi. Development of the high-power spallation neutron target of J-PARC. Proceedings of 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19) (Internet). 2022. 13

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MISC (16)：

Naoe Takashi, Wakui Takashi, Kinoshita Hidetaka, Kogawa Hiroyuki, Teshigawara Makoto, Haga Katsuhiro. Technical note for the cavitation damage inspection for interior surface of the mercury target vessel, 2; Damage depth measurement for cavitation erosion. JAEA-Technology 2023-022. 2024. 81
Naoe Takashi, Kinoshita Hidetaka, Wakui Takashi, Kogawa Hiroyuki, Haga Katsuhiro. Technical note for the cavitation damage inspection for interior surface of the mercury target vessel, 1; Development of specimen cutting machine for remote handling. JAEA-Technology 2022-018. 2022. 43
Wakui Takashi, Wakai Eiichi, Naoe Takashi, Kogawa Hiroyuki, Haga Katsuhiro, Takada Hiroshi, Shintaku Yohei*, Li T.*, Kanomata Kenichi*. Ultrasonic inspection technique for weld part of mercury target vessel for spallation neutron source. Choompa Techno. 2018. 30. 5. 16-20
Wan T., Naoe Takashi, Wakui Takashi, Haga Katsuhiro, Kogawa Hiroyuki, Futakawa Masatoshi. In-situ structural integrity evaluation for high-power pulsed spallation neutron source by using a laser Doppler method. JAEA-Conf 2015-002. 2016. 76-87
Teshigawara Makoto, Kinoshita Hidetaka, Wakui Takashi, Meigo Shinichiro, Seki Masakazu, Harada Masahide, Ito Manabu, Suzuki Toru, Ikezaki Kiyomi, Maekawa Fujio, et al. Maintenance of used components in spallation neutron source; Moderator $\cdot$ reflector and proton beam window. JAEA-Technology 2012-024. 2012. 2012-024. 303

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Patents (2)：

Lectures and oral presentations (66)：

Characterization of Fe-, Ti-, and W-based high-entropy alloys that mainly have bcc crystal structure (including irradiation effects)
(日本金属学会2024年春期(第174回)講演大会)
Updates on the operation of the MLF neutron target at J-PARC and perspectives for future operation
(8th High Power Targetry Workshop (HPTW2023))
Present status of cavitaion damage mitigation techiques for the mercury target veesel of J-PARC pulsed spallation neutron source
(8th High Power Targetry Workshop (HPTW2023))
Evaluation of Properties of BCC Based High-Entropy Alloys
(日本原子力学会2023年秋の大会)
Mechanical properties evaluation technique on damaged surface layer using indentation test
(日本実験力学会2023年度年次講演会)

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