Mass Transfer Behavior and Microstructure Evolution of Li4TiO4-Li2TiO3 Core-shell Breeding Ceramic Under Harsh Operating Conditions

Abstract: The development of novel tritium breeding materials was urgently needed in order to continuously optimize the tritium breeding ratio (TBR) of thermonuclear fusion reactors. From this point of view, Li4TiO4-Li2TiO3 core-shell breeding materials with more reasonable structure and theoretical Li density of 0.464 g/cm3 were prepared in this work. Notably, the mass transfer experiment at 900 °C in 1% H2/Ar shows that the theoretical Li density of this core-shell material after heating for 30 days was significantly … Show more

“…In order to study the effect of long-term heating on tritium behavior, tritium behavior experiments were carried out with unheated samples (US) and long-time heated samples (LS). Details of the long-term heating experiments can be found in this preprint [30]. The cross-sectional morphology and microstructure of the two samples were shown in figure 1.…”

The effect of long-term heating on the tritium adsorption and desorption behavior of advanced core–shell breeding materials

“…In order to study the effect of long-term heating on tritium behavior, tritium behavior experiments were carried out with unheated samples (US) and long-time heated samples (LS). Details of the long-term heating experiments can be found in this preprint [30]. The cross-sectional morphology and microstructure of the two samples were shown in figure 1.…”

The effect of long-term heating on the tritium adsorption and desorption behavior of advanced core–shell breeding materials