LNF:Technology: Difference between revisions

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[[File:Foto0005b.jpg|500px|thumb|right|SIMS sample-holder]]
[[File:Foto0005b.jpg|500px|thumb|right|SIMS sample-holder]]


The main mission of the Fusion Technology Division of the Spanish National Fusion Laboratory is to undertake research on the properties as well as the radiation hardness and subsequent degradation of structural and functional materials for future fusion reactors. In particular, studies on reduced activity ferritic/martensitic steels and materials used for electrical isolation, diagnostic windows etc. are central to this work. In parallel, given that at present, there is no neutron source available that simulates the fluxes and energies required for material irradiation under predicted fusion reactor conditions, the division is involved in the development of suitable neutron sources for material irradiation (ENS, IFMIF, and DONES). These sources, when on-line, will facilitate accelerated irradiation damage studies in materials of interest. Finally, activities by the division in the area of lithium breeding blanket (LLB) development can be highlighted. This work is based on liquid metals (Li-Pb) or lithium based ceramics for LBB and on corrosion or permeation phenomena in blanket structural materials.
The main mission of the Fusion Technology Division of the Spanish National Fusion Laboratory is to undertake research on the properties as well as the radiation hardness and subsequent degradation of structural and functional materials for future fusion reactors. In particular, studies on reduced activity ferritic/martensitic steels and materials used for electrical isolation, diagnostic windows etc. are central to this work. In parallel, given that at present, there is no neutron source available that simulates the fluxes and energies required for material irradiation under predicted fusion reactor conditions, the division is involved in the development of suitable neutron sources for material irradiation (ENS, IFMIF, and DONES). These sources, when on-line, will facilitate accelerated irradiation damage studies in materials of interest. Finally, activities by the division in the area of lithium breeding blanket (LBB) development can be highlighted. This work is based on liquid metals (Li-Pb) or lithium based ceramics for LBB and on corrosion or permeation phenomena in blanket structural materials.




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