Brandon Semerau scite author profile

Fuel Cladding Chemical Interactions (FCCI) in a nuclear reactor occur due to thermal and radiation enhanced inter-diffusion between the cladding and fuel materials, and can have the detrimental effects of reducing the effective cladding wall thickness and the formation of low melting point eutectic compounds. Deposition of diffusion barrier coatings of a thin oxide on the inner surface of the cladding can potentially reduce or delay the onset of FCCI. This study examines the feasibility of using nanofluid-based electrophoretic deposition (EPD) process to deposit coatings of titanium oxide, yttria-stabilized zirconia (YSZ) and vanadium oxide. The deposition parameters, including the nanofluid composition, current, and voltage were optimized for each coating material using test flat substrates of T91 ferritic-martensitic steel. Diffusion characteristics of the coatings were investigated by diffusion couple experiments using the fuel surrogate cerium. These diffusion couple studies performed in the temperature range of 560°C and 585°C showed that the oxide coatings significantly reduce the solid state inter-diffusion between cerium to steel.

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Brandon Semerau

Development of Yttrium Stabilized Zirconia (YSZ) diffusion barrier coatings for mitigation of Fuel–Cladding Chemical Interactions

Development of titanium diffusion barrier coatings for mitigation of fuel–cladding chemical interactions

A Study of Nanoparticle Surface Modification Effects on Pool Boiling Critical Heat Flux

Development of Diffusion Barrier Coatings for Mitigation of Fuel-Cladding Chemical Interactions

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