@article{oai:repo.qst.go.jp:00074715,
 author = {Chakin, V. and Rolli, R. and Kurinskiy, R. and J.-H., Kim and Nakamichi, M. and Gaisin, Ramil and Kim, Jaehwan and Nakamichi, Masaru},
 journal = {Fusion Engineering and Design},
 month = {Mar},
 note = {In the present paper, a homogenization heat treatment at 1473 K for 8 h was carried out with the aim to obtain the single-phase Be12Ti structure in the pebbles of three Be-Ti compositions: Be-7.0Ti, Be-7.3Ti, Be-7.7Ti at.%. After the heat treatment the average porosity in the pebbles increased from 5 to 8% to 36–47%, which resulted in lower amount of tritium/hydrogen retention during the loading. Temperature-programmed desorption tests showed that the performed heat treatment facilitates tritium/hydrogen release from Be-Ti pebbles. Assessment of the effective activation energies of tritium desorption reveals that the tritium release from titanium beryllide occurs much more easier than from pure beryllium.},
 pages = {165--171},
 title = {Effect of heat treatment of titanium beryllide on tritium/hydrogen release},
 volume = {137},
 year = {2019}
}