首页|3D analysis of TRISO fuel compacts via X-ray computed tomography
3D analysis of TRISO fuel compacts via X-ray computed tomography
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NSTL
Elsevier
Low-enriched uranium oxycarbide (LEUCO) and surrogate tristructural isotropic (TRISO)-coated-particle compacts with particle volumetric packing fractions of 25%, 40%, and 48% were imaged utilizing X-ray-computed tomography. Subsequent 3D image analysis identified and further quantified kernel size, sphericity, and observed porosity. In addition, the spatial distribution, coordination number, and kernel -nearest neighbors were analyzed and compared for the different packing fractions. Metrics such as ob-served porosity and sphericity enabled quantification and screening for abnormal kernels within TRISO compacts. Assessment of TRISO particle location confirmed and further quantified a non-uniform distri-bution of TRISO particles with the spatial distribution in the radial direction being roughly described as a dampened sinusoidal function. The amplitude and frequency of this non-uniform distribution increased with increasing packing fraction. Measured kernel-nearest neighbor distances indicated two regions along the radial surfaces of compacts where TRISO particles are more likely to be in intimate contact with one another. These regions were found: (1) at upper and lower faces of compacts (i.e., corners); (2) offset similar to 10% of a compact's length from the axial center near the exterior surface. Within these regions, small quantities of defective TRISO surrogate particles (48% packing fraction) and defective LEUCO TRISO par-ticles (40% packing fraction) were found. No defective particles were found within 25% packing fraction LEUCO TRISO compacts.
NSTL
Elsevier
