Hydrogenation of titanium-based quasicrystals

A. M. Viano; R. M. Stroud; P. C. Gibbons; A. F. McDowell; M. S. Conradi; K. F. Kelton

doi:10.1103/PhysRevB.51.12026

Hydrogenation of titanium-based quasicrystals

A. M. Viano
, R. M. Stroud
, P. C. Gibbons
, A. F. McDowell
, M. S. Conradi
, K. F. Kelton

Research output: Contribution to journal › Article › peer-review

137 Scopus citations

Abstract

Measurements of hydrogen loading and unloading in a quasicrystal are reported. The icosahedral phase (i phase) in a Ti-Zr-Ni alloy demonstrates hydrogen absorption from the gas phase at a temperature of 260 °C and a pressure of 40 atmospheres. The incorporation of hydrogen causes the quasilattice to expand, with an increase in quasilattice constant of almost 7%, from ai=5.18 to 5.52 . Similar abilities for storing hydrogen are found in high-order crystalline approximant and amorphous phases of like composition. Of the phases examined, the i phase absorbs the most hydrogen, giving a hydrogen atom to metal atom ratio ([H]/[M]) of 1.6. Initial studies indicate that hydrogen desorption is hindered by phase transitions to stable hydride phases. Hydrogen loading at lower temperatures with higher H2 pressures favors higher [H]/[M] ratios for the i phase and the crystal approximant, and also minimizes the growth of more stable crystalline hydride phases.

Original language	English
Pages (from-to)	12026-12029
Number of pages	4
Journal	Physical Review B
Volume	51
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevB.51.12026
State	Published - 1995

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title = "Hydrogenation of titanium-based quasicrystals",

abstract = "Measurements of hydrogen loading and unloading in a quasicrystal are reported. The icosahedral phase (i phase) in a Ti-Zr-Ni alloy demonstrates hydrogen absorption from the gas phase at a temperature of 260 °C and a pressure of 40 atmospheres. The incorporation of hydrogen causes the quasilattice to expand, with an increase in quasilattice constant of almost 7\%, from ai=5.18 to 5.52 . Similar abilities for storing hydrogen are found in high-order crystalline approximant and amorphous phases of like composition. Of the phases examined, the i phase absorbs the most hydrogen, giving a hydrogen atom to metal atom ratio ([H]/[M]) of 1.6. Initial studies indicate that hydrogen desorption is hindered by phase transitions to stable hydride phases. Hydrogen loading at lower temperatures with higher H2 pressures favors higher [H]/[M] ratios for the i phase and the crystal approximant, and also minimizes the growth of more stable crystalline hydride phases.",

author = "Viano, \{A. M.\} and Stroud, \{R. M.\} and Gibbons, \{P. C.\} and McDowell, \{A. F.\} and Conradi, \{M. S.\} and Kelton, \{K. F.\}",

year = "1995",

doi = "10.1103/PhysRevB.51.12026",

language = "English",

volume = "51",

pages = "12026--12029",

journal = "Physical Review B",

issn = "0163-1829",

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TY - JOUR

T1 - Hydrogenation of titanium-based quasicrystals

AU - Viano, A. M.

AU - Stroud, R. M.

AU - Gibbons, P. C.

AU - McDowell, A. F.

AU - Conradi, M. S.

AU - Kelton, K. F.

PY - 1995

Y1 - 1995

N2 - Measurements of hydrogen loading and unloading in a quasicrystal are reported. The icosahedral phase (i phase) in a Ti-Zr-Ni alloy demonstrates hydrogen absorption from the gas phase at a temperature of 260 °C and a pressure of 40 atmospheres. The incorporation of hydrogen causes the quasilattice to expand, with an increase in quasilattice constant of almost 7%, from ai=5.18 to 5.52 . Similar abilities for storing hydrogen are found in high-order crystalline approximant and amorphous phases of like composition. Of the phases examined, the i phase absorbs the most hydrogen, giving a hydrogen atom to metal atom ratio ([H]/[M]) of 1.6. Initial studies indicate that hydrogen desorption is hindered by phase transitions to stable hydride phases. Hydrogen loading at lower temperatures with higher H2 pressures favors higher [H]/[M] ratios for the i phase and the crystal approximant, and also minimizes the growth of more stable crystalline hydride phases.

AB - Measurements of hydrogen loading and unloading in a quasicrystal are reported. The icosahedral phase (i phase) in a Ti-Zr-Ni alloy demonstrates hydrogen absorption from the gas phase at a temperature of 260 °C and a pressure of 40 atmospheres. The incorporation of hydrogen causes the quasilattice to expand, with an increase in quasilattice constant of almost 7%, from ai=5.18 to 5.52 . Similar abilities for storing hydrogen are found in high-order crystalline approximant and amorphous phases of like composition. Of the phases examined, the i phase absorbs the most hydrogen, giving a hydrogen atom to metal atom ratio ([H]/[M]) of 1.6. Initial studies indicate that hydrogen desorption is hindered by phase transitions to stable hydride phases. Hydrogen loading at lower temperatures with higher H2 pressures favors higher [H]/[M] ratios for the i phase and the crystal approximant, and also minimizes the growth of more stable crystalline hydride phases.

UR - https://www.scopus.com/pages/publications/33749139453

U2 - 10.1103/PhysRevB.51.12026

DO - 10.1103/PhysRevB.51.12026

M3 - Article

AN - SCOPUS:33749139453

SN - 0163-1829

VL - 51

SP - 12026

EP - 12029

JO - Physical Review B

JF - Physical Review B

IS - 17

ER -

Hydrogenation of titanium-based quasicrystals

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