2010
DOI: 10.1016/j.engfailanal.2009.07.001
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Behavior and failure of uniformly hydrided Zircaloy-4 fuel claddings between 25°C and 480°C under various stress states, including RIA loading conditions

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Cited by 76 publications
(51 citation statements)
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“…The results are by some earlier reports [27,28]. The effects of interstitial hydrogen and hydride phases are opposite, but the distinct loss of plasticity observed in another studies [25,26,29,31] might appear at high hydrogen content and a great number of hydrides. The separation of these effects is not easy at low hydrogen content.…”
Section: Discussionsupporting
confidence: 67%
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“…The results are by some earlier reports [27,28]. The effects of interstitial hydrogen and hydride phases are opposite, but the distinct loss of plasticity observed in another studies [25,26,29,31] might appear at high hydrogen content and a great number of hydrides. The separation of these effects is not easy at low hydrogen content.…”
Section: Discussionsupporting
confidence: 67%
“…As the hydrogen content increased, an increase in the strength, a decrease in the ductility and the maximum stress were observed with increasing hydrogen content for Zircaloy-4 [31]. The ductility at room temperature decreased with increasing hydrogen content [26]. The room temperature strength of Zr-Sn-Fe-Nb tubes increased slightly, and the ductility decreased with the formation of the hydrides [32].…”
Section: Hydrogen Degradationmentioning
confidence: 85%
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“…Sugiyama et al [3] results indicated that 60% and 85% of the cladding section was at a temperature lower than 350°C and 480°C respectively at cladding fracture. In laboratory tests that aimed at studying RIA conditions should therefore take into account the temperature level as it affects the material mechanical and thermal behavior [7] and the fracture process [10][11][12], the quantity of dissolved hydrides [13] and the extent of the irradiation recovery [14]. The temperature gradient in the cladding wall is likely one of the thermomechanical loading conditions that is most difficult to reproduce experimentally.…”
Section: Temperaturementioning
confidence: 99%
“…The fuel pellets expand thermally and may cause fast straining of the surrounding Zircaloy clad tube through pellet-clad mechanical interaction. The fast loading imposed by the mechanical expansion of fuel pellet may cause rapid propagation of pre-existing cracks (Leclercq et al 2008;Chung and Kassner 1998;Saux et al 2010). These pre-existing defects may have been initiated during the service life due to mechanical and chemical interaction of fuel pellets with the clad.…”
Section: Introductionmentioning
confidence: 99%