Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Kudo, Hiroshi*; Sakamoto, Akihiko*; Yamamoto, Shunya; Aoki, Yasushi; Naramoto, Hiroshi; Inoue, Tomoyasu*; Sato, Msataka*; Yamamoto, Yasuhiro*; Umezawa, Kenji*; Seki, Seiji*
Japanese Journal of Applied Physics, Part 2, 35(11B), p.L1538 - L1541, 1996/11
no abstracts in English
Morishita, Masaki; Asayama, Tai; Inoue, Masaki; Kotake, Shoji; Mizuno, Tomoyasu
no journal, ,
JSFR is a sodium cooled loop type fast reactor on which a conceptual design study is now underway in the framework of "Fast Reactor Cycle Technology Development Project (FaCT Project)" of Japan. Achieving economic competitiveness with future light water reactors, along with assuring high level of safety and reliability, is among its most crucial development targets. In this paper described are the major design features of JSFR and related material development issues.
Kaito, Takeji; Otsuka, Satoshi; Inoue, Masaki; Asayama, Tai; Okubo, Tsutomu; Mizuno, Tomoyasu; Okubo, Yoshiyuki*; Kotake, Shoji*
no journal, ,
An innovative core and fuel concept of Japan Sodium-cooled Fast Reactor (JSFR) is aiming at achieving as high burn-up as 150 GWd/t of average discharge burn-up to improve its economical competitiveness. A candidate of innovative technology to achieve such high burn-up is oxide-dispersion-strengthened (ODS) ferritic cladding material with both excellent irradiation resistance and high strength at elevated temperature. This paper reports the result of applicability study of the innovative technologies for the JSFR core.