2002
DOI: 10.1016/s0375-9601(02)01227-6
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Superconductivity of TiZrNi alloys containing quasicrystals

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Cited by 19 publications
(7 citation statements)
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“…1) presents the superposition of characteristic ␤ phase peaks over a diffuse amorphous halo spread out the 30 • -40 • angular range. The lattice constant of this body-centered cubic (bcc) phase, a ␤ = 0.341 nm, evaluated from the (1 1 0) ␤ diffraction peaks shift, matches parameters mentioned elsewhere for a Ti/Zr solid solution [24,29]. The noticeable absence of (2 0 0) ␤ and (2 1 1) ␤ diffraction peaks is probably due to the solidification technique: planar flow casting may create a strong thermal gradient, leading to a final strong crystallographic texture.…”
Section: As-quenched Structuresupporting
confidence: 53%
“…1) presents the superposition of characteristic ␤ phase peaks over a diffuse amorphous halo spread out the 30 • -40 • angular range. The lattice constant of this body-centered cubic (bcc) phase, a ␤ = 0.341 nm, evaluated from the (1 1 0) ␤ diffraction peaks shift, matches parameters mentioned elsewhere for a Ti/Zr solid solution [24,29]. The noticeable absence of (2 0 0) ␤ and (2 1 1) ␤ diffraction peaks is probably due to the solidification technique: planar flow casting may create a strong thermal gradient, leading to a final strong crystallographic texture.…”
Section: As-quenched Structuresupporting
confidence: 53%
“…15,34,35) The peak broadening can be mainly attributed to a size effect of nano-quasicrystalline particles but also to the superposition of these icosahedral features with other characteristic peaks assigned to the crystalline -Ti/Zr (hP2) solid solution (a ¼ 0:311 nm, c ¼ 0:494 nm) and the C14 MgZn 2 -type Laves phase (a ¼ 0:509 nm, c ¼ 0:864 nm). 31) The nature of the as-quenched sample (mixture of nanometric quasicrystalline particles, -(Ti/Zr) solution and C14 Laves phases) was clearly confirmed by TEM examination.…”
Section: Resultsmentioning
confidence: 99%
“…As initial elements we used Ti, Zr, and Ni of 99.9 purity. 4 The tangential velocity of the disk surface at quenching was vϭ19.5 and 25 m/s ͑samples S19 and S25, respectively͒. X-ray fluorescence chemical composition control showed less than 0.5% deviation of the resulting sample composition from the nominal one.…”
Section: Samplesmentioning
confidence: 90%