Journal ArticleDOI
Ternary phase diagram studies in Ti–Zr–Ni alloys
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TLDR
In this article, microstructural results in as-cast and annealed samples are discussed, and the dominant equilibrium phases identified are the C 14 -like Laves phase, a Ti 2 Ni-like phase, α(Ti/Zr), the b.c. 1/1 W-phase and the i-phase.Abstract:
Equilibrium phase formation is reported for ternary Ti–Zr–Ni alloys near the i-phase-forming composition, for temperature slices between 500 and 700°C. Selected microstructural results in as-cast and annealed samples are discussed. Dominant equilibrium phases identified are the C 14 -like Laves phase, a Ti 2 Ni-like phase, α(Ti/Zr), the b.c.c. 1/1 W-phase and the i-phase. The i-phase forms over a small compositional range from a high-temperature equilibrium phase mixture of the Laves and α(Ti/Zr) solid solution phases. Lower annealing treatments have not been found to transform the i-phase, suggesting that in this alloy, the quasicrystal phase might be the ground state phase. Additions of small amounts of Pb and Pd, 1–2 at.%, are demonstrated to substantially effect the equilibrium phase formation for the i-phase and the W-phase. The addition of 1 at.% of Pb significantly orders the i-phase structure.read more
Citations
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Quasicrystals in the Ti-Zr-Ni alloy system
TL;DR: In this paper, the ideal quasicrystals-forming composition Ti 40 Zr 40 Ni 20 has been identified, which lies at the crossing point of two specific lines, termed as e/a-constant and e/A-variant lines.
Journal ArticleDOI
Structure of the icosahedral Ti-Zr-Ni quasicrystal
TL;DR: In this article, the atomic structure of the icosahedral Ti-Zr-Ni quasicrystal is determined by invoking similarities to periodic crystalline phases, diffraction data, and the results from ab initio calculations.
Journal ArticleDOI
Effect of processing parameter on hydrogen storage characteristics of as quenched Ti45Zr38Ni17 quasicrystalline alloys
TL;DR: In this paper, the microstructural changes with respect to the processing parameter (quenching rate) and their correlation with hydrogen storage characteristics of Ti 45 Zr 38 Ni 17 quasicrystalline alloys were investigated.
Journal ArticleDOI
Microstructural, tribological and corrosion aspects of thermally sprayed Ti–Cr–Si coatings
TL;DR: In this paper, the authors describe an attempt to produce quasicrystal by thermally spraying the alloy in air, i.e., in the presence of oxygen, either by flame or atmospheric plasma spraying.
Journal ArticleDOI
Formations of amorphous and quasicrystal phases in Ti–Zr–Ni–Cu alloys
TL;DR: In this paper, the structure of melt-spun Ti45Zr35Ni20−xCux (x=0, 1, 3, 5 and 7) alloys and a cast Ti45 Zr 35Ni17Cu3 bulk alloy have been studied.
References
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Journal ArticleDOI
A stable Ti-based quasicrystal
TL;DR: In this paper, the thermal stability of the icosahedral phase (i phase) in Ti45Zr38Ni17 alloys is demonstrated, and the quasicrystal is shown to be stable.
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Stable Ti-based quasicrystal offers prospect for improved hydrogen storage
TL;DR: In this paper, the desorption of hydrogen from a novel material, a Ti45Zr38Ni17•H quasicrystal, was observed using high-temperature powder x-ray diffraction, demonstrating the potential utility of Ti-based quasics in place of crystalline or amorphous hydrides for hydrogen storage applications.
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Hydrogen Storage in Quasicrystals
TL;DR: Some transition metals have a capacity to store hydrogen to a density exceeding that of liquid hydrogen as mentioned in this paper, and they can be used as storage tanks for stationary non-polluting hydrogen internal-combustion engines.
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Structural refinement of 1/1 bcc approximants to quasicrystals: Bergman-type W(TiZrNi) and Mackay-type M(TiZrFe)
TL;DR: In this article, structural refinement of large-unit-cell bcc crystalline phases found in Ti-Zr-Ni and Ti-zr-Fe alloys, which are $1/1$ rational approximants of icosahedral quasicrystals, is reported.
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The icosahedral and related crystal approximant phases in Ti-Zr-Ni alloys
TL;DR: The icosahedral phase (i-phase) and higher-order crystal approximant phases in rapidly quenched Ti-Zr-Ni alloys are reported in this paper.