2008 年 49 巻 10 号 p. 2214-2219
A series of Nb40Ti30+xNi30−x alloys are characterized in terms of microstructure, crystal structure, ductility, susceptibility to hydrogen embrittlement, and hydrogen permeability as non-palladium-based hydrogen permeation alloys. The maximum hydrogen permeability and ductility of the alloy is exhibited by the alloy with composition of x=2 (Nb40Ti32Ni28). The enhancement of hydrogen permeability correlates well with an increase in the volume fraction of the primary (Nb, Ti) phase. After cold rolling and annealing, the hydrogen permeability of the Nb40Ti34Ni26 (x=4) alloy becomes superior to that of the Nb40Ti30Ni30 (x=0) composition previously reported to be the best in the Nb40Ti30+xNi30−x series. The present results indicate that the hydrogen permeability of the Nb-TiNi alloy can be optimized by annealing and appropriately adjusting the Ti/Ni ratio for a given niobium content.