"Microstructural characterization of high burn-up mixed oxide fast reactor fuel"
Brian Gorman, Steven Hayes, Jeffrey King, Douglas Porter, Melissa Teague,
Journal of Nuclear Materials
Vol. 441
2013
267-273
Link
High burn-up mixed oxide fuel with local burn-ups of 3.4–23.7% FIMA (fissions per initial metal atom) were destructively examined as part of a research project to understand the performance of oxide fuel at extreme burn-ups. Optical metallography of fuel cross-sections measured the fuel-to-cladding gap, clad thickness, and central void evolution in the samples. The fuel-to-cladding gap closed significantly in samples with burn-ups below 7–9% FIMA. Samples with burn-ups in excess of 7–9% FIMA had a reopening of the fuel-to-cladding gap and evidence of joint oxide-gain (JOG) formation. Signs of axial fuel migration to the top of the fuel column were observed in the fuel pin with a peak burn-up of 23.7% FIMA. Additionally, high burn-up structure (HBS) was observed in the two highest burn-up samples (23.7% and 21.3% FIMA). The HBS layers were found to be 3–5 times thicker than the layers found in typical LWR fuel. The results of the study indicate that formation of JOG and or HBS prevents any significant fuel-cladding mechanical interaction from occurring, thereby extending the potential life of the fuel elements. |
"Current Status of Postirradiation Examination of the AFC Metallic Fuel" Jason Harp, Luca Capriotti, Fabiola Cappia, Steven Hayes, ANS Annual Meeting 2018 June 18-22, (2018) | |
"Preliminary postirradiation examination of several EBR-II metallic fuel pins" Luca Capriotti, Jason Harp, Daniel Wachs, Steven Hayes, NUMAT 2018 October 15-18, (2018) |
The Nuclear Science User Facilities (NSUF) is the U.S. Department of Energy Office of Nuclear Energy's only designated nuclear energy user facility. Through peer-reviewed proposal processes, the NSUF provides researchers access to neutron, ion, and gamma irradiations, post-irradiation examination and beamline capabilities at Idaho National Laboratory and a diverse mix of university, national laboratory and industry partner institutions.
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