EXPERIMENTAL STUDY OF DAMAGED CR-COATED FUEL CLADDING IN POST-ACCIDENT CONDITIONS

EXPERIMENTAL STUDY OF DAMAGED CR-COATED FUEL CLADDING IN POST-ACCIDENT CONDITIONS

To enhance the safety of nuclear power, the focus of researchers all around the world has recently mainly objected on the development of Accident Tolerant Fuels. Especially the Chromium coating of current Zirconium based cladding has been widely suggested and discussed for its immense positive effec...

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Veröffentlicht in:Acta Polytechnica CTU proceedings 2020-12, Vol.28, p.1-7
Hauptverfasser: Červenka, Petr, Krejčí, Jakub, Cvrček, Ladislav, Rozkošný, Vojtěch, Manoch, František, Rada, David, Kabátová, Jitka
Format: Artikel
Sprache:eng
Schlagworte:
atf
cladding embrittlement
coating
loca
oxidation
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Beschreibung
Zusammenfassung:To enhance the safety of nuclear power, the focus of researchers all around the world has recently mainly objected on the development of Accident Tolerant Fuels. Especially the Chromium coating of current Zirconium based cladding has been widely suggested and discussed for its immense positive effect on overall cladding properties. Nevertheless, it was observed that during the first stage of the Loss of Coolant Accident, cracks appear in the Cr coating due to its inability to tolerate higher plastic strain. Therefore, experimental methodology used in this article focuses on testing fuel cladding with damaged Cr coating after the high-temperature transient. The impact of cracks on degradation of cladding mechanical properties was observed using optical microscopy, ring compression test, microhardness, and evaluating hydrogen content and weight gain.
ISSN:2336-5382
2336-5382
DOI:10.14311/APP.2020.28.0001