Abstract

Within the European Union, the two major breeding blanket concepts presently being developed are the helium cooled pebble bed (HCPB), and the helium cooled lithium lead (HCLL) blankets. For both concepts, different conceptual designs are being discussed with temperature windows in the range 250-550 degrees C for conservative approaches based on reduced activation ferritic-martensific (RAFM) steels, and in the range 250-650 degrees C for more advanced versions, taking into account oxide dispersion strengthened (ODS) steels. As a final result of a systematic development of RAFM-steels in Europe, the 9% CrWVTa alloy EUROFER was specified and produced in an industrial scale with a variety of product forms. A large characterisation program is being performed including irradiation in materials test reactors between 60 and 450 degrees C (<= 15 dpa), and in a fast breeder reactor at 330 degrees C up to 30 dpa. EUROFER is resistant to high temperature ageing, and the existing creep-rupture data (similar to 30,000 h, 450-600 degrees C) indicate long-term stability and predictability. The ODS variant of EUROFER shows superior tensile and creep properties compared to EUROFER. Applying a new production route has diminished the problem of lower ductility and inferior impact properties. A reliable joining technique for ODS and RAFM steels employing diffusion welding was successfully developed. (c) 2005 Published by Elsevier B.V.

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