E. Surrey M. Porton A. Caballero T. Davenne D. Findlay A. Letchford J. Thomason J. Marrow S. Roberts Andrei Seryi B. Connolly P. Mummery H. Owen
The need to populate the fusion materials engineering data base has long been recognized, the IFMIF facility being the present proposed neutron source for this purpose. Re-evaluation of the regulatory approach for the EU proposed DEMO device shows that the specification of the neutron source can be reduced with respect to IFMIF, allowing lower risk…
PublishedE. Surrey M. Porton T. Davenne D. Findlay A. Letchford J. Thomason S.G. Roberts J. Marrow A. Seryi B. Connolly H. Owen
The materials engineering data base relevant to fusion irradiation is poorly populated and it has long been recognized that a fusion spectrum neutron source will be required, the facility IFMIF being the present proposal. Reevaluation of the regulatory approach for the EU proposed DEMO device shows that the purpose of the source can be changed from…
PublishedChristopher D Hardie Ceri A Williams Shuo Xu Steve G Roberts
Pure Fe and model Fe-Cr alloys containing 5, 10 and 14%Cr were irradiated with Fe+ ions at a maximum energy of 2MeV to the same dose of 0.6dpa at temperatures of 300°C, 400°C and 500°C, and at dose rates corresponding to 6 x 10-4 dpa/s and 3 x 10-5 dpa/s. All materials exhibited an increase in hardness after irradiation at 300°C. After irradiat…
PublishedE. Surrey M. Porton T. Davenne D. Findlay A. Letchworth J. Thomason S.G. Roberts J. Marrow,
The materials engineering data base relevant to fusion irradiation is poorly populated and it has long been recognized that a fusion spectrum neutron source will be required, the facility IFMIF being the present proposal. Re-evaluation of the regulatory approach for the EU proposed DEMO device shows that the purpose of the source can be changed fro…
Published