Microstructure and mechanical properties of heat-treated and neutron irradiated TRISO-ZrC coatings

Six developmental sets of as-fabricated and heat-treated, near- and hyper-stoichiometric ZrC coated TRISO particles were subject to fast neutron (E>0.1MeV) fluences of 2 and 6×1025neutrons/m2 at 800 and 1250°C to assess the effects of irradiation on the coating microstructure and mechanical prope...

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Bibliographic Details
Published inJournal of Nuclear Materials Vol. 464; no. C; pp. 245 - 255
Main Authors Vasudevamurthy, G., Katoh, Y., Aihara, J., Sawa, K., Snead, L.L.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.09.2015
Elsevier BV
Elsevier
Subjects
Band structure of solids
Carbon
Coatings
Heat treatment
Interlayers
Irradiation
Materials Science(all)
Mechanical properties
Microstructure
Nuclear and High Energy Physics
Nuclear Energy and Engineering
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Summary:Six developmental sets of as-fabricated and heat-treated, near- and hyper-stoichiometric ZrC coated TRISO particles were subject to fast neutron (E>0.1MeV) fluences of 2 and 6×1025neutrons/m2 at 800 and 1250°C to assess the effects of irradiation on the coating microstructure and mechanical properties. Pre-irradiation microstructural analysis showed that the all but one of the near-stoichiometric samples fabricated by CVD had a homogenous grain structure while others including the hyper-stoichiometric sample had a distinct tiered band pattern with alternating carbon rich interlayers. The band structure in the near-stoichiometric samples became prominent following the heat treatment and the homogenous grained sample underwent severe grain growth. Post-irradiation observations indicated that neutron irradiation did not have any significant effects on the bulk microstructure of any of the samples regardless of the stoichiometry. Post-irradiation softening and reduction in modulus at the highest dose (6dpa) were observed in all samples regardless of the composition and structure but were less significant in specimens with a banded microstructure. It was concluded that the carbon interlayers which contributed to the formation of the band structure had played a role in preserving the microstructure and the mechanical properties following both heat treatment and irradiation.
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USDOE
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2015.04.026