Descripción
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The lack of plasma facing materials (PFM) able to withstand the severe raddiation condditions exppectedd in ffusion reactors is thhe actuall bbottlle neckk for fusion to become a reality. WW hhaass bbeeeenn pprrooppoosseedd ttoo bbee oonnee ooff tthhee bbeesstt ccaannddiiddaatteess ffoorr PPFFMM ffoorr bbootthh laser (IC) and magnetic (MC) confinement fusion approaches. NNeevveerrtthheelleessss,, ssoommee lliimmiittaattiioonnss ssuucchh aass tthhee lliigghhtt ssppeecciieess rreetteennttiioonn hhaavvee bbeen iiddenttiiffiiedd ffor sttanddardd coarse-graiin WW ((CCGGWW)). Nanostructured materials (NM) have been demonstrated to present a hhiigghheerr rraaddiiaattiioonn aanndd sswweelllliinngg rreessiissttaanntt bbeeccaauussee ooff tthhee iinnfflluueennccee ooff tthhee grain boundaries in the ?RRaddiiattiion-iindducedd ddamagge?sellff-hhealliingg bbehhaviiour. ?Light species retention ? light species are pinned at the grain boundaries and GB act as effective diffusion channels. | |
Internacional
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Si |
Nombre congreso
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14th International Conference on Plasma-Facing Materials and Components for Fusion Applications |
Tipo de participación
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960 |
Lugar del congreso
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Jülich, Germany |
Revisores
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Si |
ISBN o ISSN
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0000-0000 |
DOI
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Fecha inicio congreso
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14/05/2013 |
Fecha fin congreso
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17/05/2013 |
Desde la página
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1 |
Hasta la página
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1 |
Título de las actas
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Proceedings |