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Abram, Timothy
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Topics
Publications (12/12 displayed)
- 2024Development of high-temperature-steam Resistant UN via the addition of UB 2
- 2024Development of high-temperature-steam Resistant UN via the addition of UB2
- 2023Fabrication and thermal conductivity of UN-UB2 composites fabricated by spark plasma sinteringcitations
- 2022Development and Comparison of Field Assisted Sintering Techniques to Densify CeO2 Ceramicscitations
- 2020Steam Performance of UB2/U3Si2 Composite Fuel Pellets, Compared to U3Si2 Reference Behaviourcitations
- 2019A high density composite fuel with integrated burnable absorber: U3Si2-UB2citations
- 2018The use of gadolinium as a burnable poison within U 3 Si 2 fuel pelletscitations
- 2018The use of gadolinium as a burnable poison within U3Si2 fuel pelletscitations
- 2016Selective area laser deposition of FCC beta silicon carbide
- 2013The chemical durability of glass and graphite-glass composite doped with cesium oxidecitations
- 2012Thermal Analysis and Immobilisation of Spent Ion Exchange Resin in Borosilicate Glasscitations
- 2008Structure and mechanical properties of pyrolytic carbon produced by fluidized bed chemical vapor depositioncitations
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article
A high density composite fuel with integrated burnable absorber: U3Si2-UB2
Abstract
UB2-U3Si2 composite fuel pellets have been manufactured and characterised. Both main phases were observed to be stable in contact with one-another up to the maximum processing temperature of 1500◦C. The solubility and behaviour of hydrogen in UB2 was predicted and compared to previous work on the gas’ behaviour in U3Si2. H2 was found to be insoluble in UB2 to any great extent, a clear distinction to the behaviour with U3Si2.