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Proton irradiation-induced cracking and microstructural defects in UN and (U,Zr)N composite fuels
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作者 Elina Charatsidou maria giamouridou +8 位作者 Andrea Fazi Gyula Nagy Diogo Ribeiro Costa Sarmad Naim Katea Mikael Jolkkonen Gunnar Westin Mattias Thuvander Daniel Primetzhofer Pär Olsson 《Journal of Materiomics》 SCIE CSCD 2024年第4期906-918,共13页
Proton irradiation with a primary ion energy of 2 MeV was used to simulate radiation damage in UN and(U,Zr)N fuel pellets.The pellets,nominally at room temperature,were irradiated to peak levels of 0.1,1,10 dpa and 10... Proton irradiation with a primary ion energy of 2 MeV was used to simulate radiation damage in UN and(U,Zr)N fuel pellets.The pellets,nominally at room temperature,were irradiated to peak levels of 0.1,1,10 dpa and 100.0 dpa resulting in a peak hydrogen concentration of at most 90 at.%.Microstructure and mechanical properties of the samples were investigated and compared before and after irradiation.The irradiation induced an increase in hardness,whereas a decrease in Young’s modulus was observed for both samples.Microstructural characterization revealed irradiation-induced cracking,initiated in the bulk of the material,where the peak damage was deposited,propagating towards the surface.Additionally,transmission electron microscopy was used to study irradiation defects.Dislocation loops and fringes were identified and observed to increase in density with increasing dose levels.The high density of irradiation defects and hydrogen implanted are proposed as the main cause of swelling and consequent sample cracking,leading simultaneously to increased hardening and a decrease in Young's modulus. 展开更多
关键词 Proton irradiation Uranium nitride Spark plasma sintering Irradiation induced cracking Simulated burn-up structure Composite nuclear fuels
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