Fabiola Cappia scite author profile

The formation of the high burnup structure (HBS) is possibly the most significant example of the restructuring processes affecting commercial nuclear fuel in-pile. The HBS forms at the relatively cold outer rim of the fuel pellet, where the local burnup is 2–3 times higher than the average pellet burnup, under the combined effects of irradiation and thermo-mechanical conditions determined by the power regime and the fuel rod configuration. The main features of the transformation are the subdivision of the original fuel grains into new sub-micron grains, the relocation of the fission gas into newly formed intergranular pores, and the absence of large concentrations of extended defects in the fuel matrix inside the subdivided grains. The characterization of the newly formed structure and its impact on thermo-physical or mechanical properties is a key requirement to ensure that high burnup fuel operates within the safety margins. This paper presents a synthesis of the main findings from extensive studies performed at JRC-Karlsruhe during the last 25 years to determine properties and behaviour of the HBS. In particular, microstructural features, thermal transport, fission gas behaviour, and thermo-mechanical properties of the HBS will be discussed. The main conclusion of the experimental studies is that the HBS does not compromise the safety of nuclear fuel during normal operations.

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Postirradiation examinations of low burnup U3Si2 fuel for light water reactor applications

Cappia

Harp

2019

Journal of Nuclear Materials

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Detailed characterization of a PWR fuel rod at high burnup in support of LOCA testing

Cappia

Wright

Frazer

et al. 2022

Journal of Nuclear Materials

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Electron microscopy characterization of fast reactor MOX Joint Oxyde-Gaine (JOG)

Cappia

Miller

Aguiar

et al. 2020

Journal of Nuclear Materials

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Fabiola Cappia

Modeling high burnup structure in oxide fuels for application to fuel performance codes. part I: High burnup structure formation

Properties of the high burnup structure in nuclear light water reactor fuel

Postirradiation examinations of low burnup U3Si2 fuel for light water reactor applications

Detailed characterization of a PWR fuel rod at high burnup in support of LOCA testing

Electron microscopy characterization of fast reactor MOX Joint Oxyde-Gaine (JOG)

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