Health & Environmental Research Online (HERO)


Print Feedback Export to File
7137824 
Journal Article 
Ferritic-martensitic steels for fission and fusion applications 
Cabet, C; Dalle, E; Gaganidze, E; Henry, J; Tanigawa, H; , 
2019 
Yes 
Journal of Nuclear Materials
ISSN: 0022-3115 
ELSEVIER SCIENCE BV 
AMSTERDAM 
510-537 
WOS:000474215000053 
Compared to austenitic stainless steels, largely employed in the early fission reactors, high chromium Ferritic/Martenstic (FM) steels, developed since the first half of the 20th century for fossil-fuel power-plants, have a number of advantageous properties among which lower thermal expansion, higher thermal conductivity and better void swelling resistance. At the beginning of the 1970s, FM steels found their first nuclear application as wrapper and fuel cladding materials in sodium-cooled fast reactors. They are now the reference materials for in-vessel components of future fusion reactors, and are considered for in-pile and out-of-pile applications in Generation IV reactors as well as for various other nuclear systems. In this paper, after an introductory historical overview, the challenges associated with the use of FM steels in advanced reactors are addressed, including fabrication, joining and codification issues. The long term evolution of mechanical properties such as the creep and creep-fatigue behaviors is discussed and the degradation phenomena occurring in aggressive environments (lead alloys, high temperature gases, super-critical water and CO2, molten salts) are detailed. The paper also provides a brief overview of the radiation effects in FM steels. The influence of the key radiation parameters e.g. temperature, dose and dose rate on the microstructure and mechanical properties are discussed. The need to better understand the synergistic effects of displacement damage and helium produced by transmutation in fusion conditions is highlighted. (C) 2019 Elsevier B.V. All rights reserved.