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Role of Annealing for Improving Hydrogen Storage Properties of Ti-Cr-V Alloy

Published online by Cambridge University Press:  26 February 2011

Yasuhiro Munekata ,
Kota Washio ,
Takanori Suda ,
Naoyuki Hashimoto ,
Somei Ohnuki ,
Hironobu Arashima  and
Hideaki Ito
Yasuhiro Munekata
Affiliation:
[email protected], Hokkaido University, Graduate School of Engineering, N-13, W-8, Kita-ku, Sapporo, 0608628, Japan
Kota Washio
Affiliation:
[email protected], Hokkaido University, Graduate School of Engineering, Sapporo, N/A, Japan
Takanori Suda
Affiliation:
[email protected], Hokkaido University, Graduate School of Engineering, Sapporo, N/A, Japan
Naoyuki Hashimoto
Affiliation:
[email protected], Hokkaido University, Graduate School of Engineering, Sapporo, N/A, Japan
Somei Ohnuki
Affiliation:
[email protected], Hokkaido University, Graduate School of Engineering, Sapporo, N/A, Japan
Hironobu Arashima
Affiliation:
[email protected], Japan Steel Works, Muroran Res. Inst., Muroran, N/A, Japan
Hideaki Ito
Affiliation:
[email protected], Japan Steel Works, Muroran Res. Inst., Muroran, N/A, Japan
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Abstract

One of impotent materials issues of Ti-Cr-V based hydrogen storage alloys is to improve cyclic degradation of storage capacity, which has been assumed to be the effect of internal stress. We focused on the sub-micron structure of this material, which can be accumulated during cyclic use. We used 24Ti-36Cr-40V alloy for the specimens, after FZ melting. Powered samples were fabricated by mechanical grinding under Ar environment. Vacuum annealing was carried out for reducing residual stress and lattice defects. PCT properties were tested at 293 K under 4.5 MPa. XRD and TEM were carried out for important samples. In the first cycle, the annealing resulted in the increasing of storage capacity, but in the second cycle the improving was disappeared. Comparing microstructures with and without annealing, complex dislocation structures were observed after cyclic hydrogenation. It is notable that dislocation free structure was some time observed in the fine grains of less than 0.1 micron, which suggests the possibility of fine structure without defect accumulation.

Keywords

hydrogenationdefectsmicrostructure
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 971: Symposium Z – Hydrogen Storage Technologies , 2006 , 0971-Z07-21
Copyright
Copyright © Materials Research Society 2007

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References

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