@article{oai:repo.qst.go.jp:00084783,
 author = {Nozawa, Takashi and Tanigawa, Hiroyasu and Kojima, Takaki and Itoh, Takamoto and Hiyoshi, Noritake and Ohata, Mitsuru and Kato, Taichiro and Ando, Masami and Nakajima, Motoki and Hirose, Takanori and D. Reed, Jordan and Chen, Xiang and W. Geringer, Josina and Katoh, Yutai and Takashi, Nozawa and Hiroyasu, Tanigawa and Taichiro, Kato and Masami, Ando and Motoki, Nakajima and Takanori, Hirose},
 journal = {Nuclear Fusion},
 month = {Oct},
 note = {This paper summarizes the current status of the material properties handbook for a structural design using Japanese reduced-activation ferritic/martensitic steel F82H. Specifically, the key structural parameters, e.g. time-independent/dependent design stresses and fatigue design curves, were determined by following the French structural design code RCC-MRx. Moreover, under the Japan–U.S. collaboration, tensile data were newly added to the benchmark heavy irradiation data up to 80 dpa, as critical input information in the intermediate check and review in Japan. Furthermore, the status of structural material data and the near-term and long-term issues were clarified by the evaluation using the attribute guides. In parallel, the structural design approaches, which were newly introduced and extended to cope with the structural design issues under the complex environmental conditions peculiar to the DEMO reactor, were noted with the initial R&D results. Of the many design issues, the multi-axial loading conditions due to the complexity of the DEMO reactor as well as the coolant compatibility and the irradiation effect are mentioned. For example, in the paper, multi-axial fatigue–creep testing and evaluation using the modified universal slope method and brittle/ductile fracture testing and evaluation using the local approach are explained toward DEMO.},
 title = {The status of the Japanese material properties handbook and the challenge to facilitate structural design criteria for DEMO in-vessel components},
 volume = {61},
 year = {2021}
}