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dc.contributor.authorValentin Brabänder, Alexander
dc.date.accessioned2021-10-20T04:02:55Z
dc.date.available2021-10-20T04:02:55Z
dc.date.issued2021
dc.date.submitted2021-10-19T08:21:40Z
dc.identifierONIX_20211019_9783731510970_3
dc.identifier2192-9963
dc.identifierhttps://library.oapen.org/handle/20.500.12657/51092
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/72412
dc.description.abstractThe present work investigates neutron-irradiated EUROFER97 by high-temperature indentation. Before, a test procedure is defined for the prototype device Karlsruhe high-temperature indenter. The procedure leads to a quality of the test results at high temperatures comparable to commercial devices at room temperature. The results contribute to a better understanding of structural materials of future fusion reactors.
dc.languageGerman
dc.relation.ispartofseriesSchriftenreihe des Instituts für Angewandte Materialien, Karlsruher Institut für Technologie
dc.rightsopen access
dc.subject.otherFusion
dc.subject.otherStrukturmaterialien
dc.subject.otherHärte
dc.subject.otherNeutronenschäden
dc.subject.otherHochtemperatur
dc.subject.otherHardness
dc.subject.otherHigh-temperature
dc.subject.otherstructural materials
dc.subject.otherNeutron-induced defects
dc.subject.otherthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TG Mechanical engineering and materials
dc.titleRegistrierende Härtemessung an neutronenbestrahlten Materialien bei hohen Temperaturen
dc.typebook
oapen.identifier.doi10.5445/KSP/1000131631
oapen.relation.isPublishedBy68fffc18-8f7b-44fa-ac7e-0b7d7d979bd2
oapen.relation.isbn9783731510970
oapen.imprintKIT Scientific Publishing
oapen.pages240
oapen.place.publicationKarlsruhe
dc.seriesnumber86
dc.abstractotherlanguageThe present work investigates neutron-irradiated EUROFER97 by high-temperature indentation. Before, a test procedure is defined for the prototype device Karlsruhe high-temperature indenter. The procedure leads to a quality of the test results at high temperatures comparable to commercial devices at room temperature. The results contribute to a better understanding of structural materials of future fusion reactors.


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