Open AccessTRISO-Coated Fuel Durability Under Extreme Conditions
Author(s) -
Ivar E. Reimanis,
Brian P. Gorman,
Darryl P. Butt
Publication year - 2014
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1154734
Subject(s) - durability , materials science , microstructure , scanning electron microscope , carbide , corrosion , transmission electron microscopy , silicon carbide , work (physics) , degradation (telecommunications) , composite material , forensic engineering , nuclear engineering , nanotechnology , mechanical engineering , computer science , engineering , telecommunications
The PIs propose to examine TRISO-coated particles (SiC and ZrC coatings) in an integrated two-part study. In the first part, experiments will be performed to assess the reaction kinetics of the carbides under CO-CO2 environments at temperatures up to 1800 degree C. Kinetic model will be applied to describe the degradation. Scanning and transmission electron microscopy will be employed to establish the chemical and microstructure evolution under the imposed environmental conditions. The second part of the proposed work focuses on establishing the role of the high temperature, environmental exposure described above on the mechanical behavior of TRISO-coated particles. Electron microscopy and other advanced techniques will be subsequently performed to evaluate failure mechanisms. The work is expected to reveal relationships between corrosion reactions, starting material characteristics (polytype of SiC, impurity concentration, flaw distribution), flaw healing behavior, and crack growth.
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