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Tritium Behavior in Lithium Ceramics
Mathematical Models for Predicting Tritium Transport
Tritons and Tritides as the Solute and Diffusing Species
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activation energy addition adsorption alkoxides aluminum annealing assumed atoms behavior blanket breeder breeder materials calcination calculated centers Ceramics compacts compared Comparison concentration containing controlled coverage cracking decreased density dependence desorption determined diameter diffusion coefficient effect experimental experiments extraction Fabrication Figure fired fraction function grain grain boundary heating helium higher hydrogen hydrolysis increased indicated initial ions irradiation lithium aluminate Lithium Ceramics Lithium Oxide Lizo lower materials measured mechanism metal method mixtures neutron Nucl observed obtained occurred particles peak pellets phase pore porosity possible powder prepared present pressure Properties purge range ratio reaction release rate reported samples shows silicate solution single crystals sintered solid solid breeder solution species spheres strength studies surface sweep gas swelling Table temperature tests thermal conductivity tritium release values various volume