@article{oai:toyama.repo.nii.ac.jp:00006370,
 author = {松山, 政夫 and 新木, 裕一 and 芦田, 完 and 三宅, 均 and 渡辺, 国昭},
 journal = {富山大学トリチウム科学センター研究報告 = Annual Report of Tritium Research Center, Toyama University},
 month = {},
 note = {application/pdf, Tritium contamination of materials used for tritium handling systems becomes a serious problem because an increasing amount of tritium is used for the research and development of thermonuclear fusion reactors. As a first step to develop materials free from tritium contamination, we studied the adsorption and desorption of tritium on Ni, Fe, and various stainless steels. The stainless steels used were SS-304 and SS-304/BN doped with Ce. The measurements were also carried out for passivated ones: namely, SS-304 passivated with electrochemical method (SS-304/P) and SS-304/BN annealed in vacuum at 800℃ for 3 hr (SS-304/BN(H)). In addition, BN discs prepared by chemical vapor deposition were also used for comparison with SS-304/BN(H). The amount of tritium adsorption and that of subsequent tritium desorption with heating considerably varied with samples. The order of the amount was Ni>>(Fe, SS-304, SS-304/BN>>(SS-304/P, SS-304/BN(H), BN). The amount of adsorption on Ni was about 100 times greater than that on Fe, SS-304 and SS-304/BN. The amount of adsorption on SS-304 was about 100 times greater than that on SS-304/P, SS-304/BN(H) and BN. Those results indicate that the adsorption of tritium is dependent to a considerable on Ni content in the subsurface layers of samples. This is supported by the surface analysis with X-ray photoelectron spectroscopy. It is noticeable that little tritium was adsorbed on SS-304/P and SS-304/BN(H). It was concluded that the stainless steels with surface passivation layers such as SS-304/P and SS-304/BN(H) are excellent as construction materials to minimize the tritium inventory and tritium contamination in the handling systems as well as thermonuclear fusion devices., Article},
 pages = {41--50},
 title = {金属,セラミックス及び有機材料に対するトリチウムの吸着(II) :テンレスに対するトリチウムの吸着防止},
 volume = {8},
 year = {1988}
}