2018
DOI: 10.1111/jace.15439
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Structural dependence of crystallization in glasses along the nepheline (NaAlSiO4) ‐ eucryptite (LiAlSiO4) join

Abstract: Lithium and sodium aluminosilicates are important glass‐forming systems for commercial glass‐ceramics, as well as being important model systems for ion transport in battery studies. In addition, uncontrolled crystallization of LiAlSiO4 (eucryptite) in high‐Li2O compositions, analogous to the more well‐known problem of NaAlSiO4 (nepheline) crystallization, can cause concerns for long‐term chemical durability in nuclear waste glasses. To study the relationships between glass structure and crystallization, nine g… Show more

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Cited by 27 publications
(15 citation statements)
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References 84 publications
(274 reference statements)
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“…[50,51] All the resonance bands are originated from [SiO 4 ] tetrahedra, however, the former is amorphous with broadened band and the latter is crystallized and ordered with sharp splitting peaks, being consistent with the results of XRD. Similarly, the resonance broadband at about 60 ppm assigned to the amorphous [AlO 4 ] tetrahedra also split into two narrowed bands at 59.3 and 65.2 ppm originated from the two distinct [AlO 4 ] tetrahedras in NASO crystal lattice, [50,51] in accordance with that of NASO phosphor (Figure 5e). Furthermore, as described in 23 Na MAS-NMR spectra in Figure 5f, a broad featureless peak in the range of −30-0 ppm belongs to sodium in aluminosilicate glasses.…”
Section: Structural Morphological Characterizations and Luminescence Propertiessupporting
confidence: 85%
“…[50,51] All the resonance bands are originated from [SiO 4 ] tetrahedra, however, the former is amorphous with broadened band and the latter is crystallized and ordered with sharp splitting peaks, being consistent with the results of XRD. Similarly, the resonance broadband at about 60 ppm assigned to the amorphous [AlO 4 ] tetrahedra also split into two narrowed bands at 59.3 and 65.2 ppm originated from the two distinct [AlO 4 ] tetrahedras in NASO crystal lattice, [50,51] in accordance with that of NASO phosphor (Figure 5e). Furthermore, as described in 23 Na MAS-NMR spectra in Figure 5f, a broad featureless peak in the range of −30-0 ppm belongs to sodium in aluminosilicate glasses.…”
Section: Structural Morphological Characterizations and Luminescence Propertiessupporting
confidence: 85%
“…The nepheline phase appeared lighter in backscattered electron imaging than the residual glass in NP‐MC‐BNa‐1, but darker than the residual glass in both NP2‐23 and NP2‐23_High Al. Since the average atomic number for NaAlSiO 4 10 was higher than values calculated for all glasses, and therefore should have appeared brighter, this may indicate that Li is partially substituting for Na in the nepheline crystalline phase in these glasses, a phenomena observed elsewhere 24,25 …”
Section: Resultsmentioning
confidence: 82%
“…The simplified composition (SIMP), the RuO 2 ‐doped version (Ru‐SIMP), and the complex composition (CX) were all analyzed after 1 × SC and mixing with a known quantity of TiO 2 standard (SRM‐674b; National Institute of Standards and Technology), using Rietveld refinement and the Topas (Bruker) software, in order to obtain the amorphous fraction. Errors on the quantification of phases are estimated at a maximum of ~0.1 × mass% for major phases (oxyapatite), and 0.25 × mass% for minor phases (powellite), as assessed by similar detailed studies using the same quantitative XRD methods …”
Section: Methodsmentioning
confidence: 99%
“…Errors on the quantification of phases are estimated at a maximum of ~0.1 × mass% for major phases (oxyapatite), and 0.25 × mass% for minor phases (powellite), as assessed by similar detailed studies using the same quantitative XRD methods. 36,37 Additionally, hot-stage XRD was obtained on the same D8 Advance diffractometer. A powder of the SIMP glass was suspended in ethanol, placed onto a Pt heater strip, and allowed to dry.…”
Section: X-ray Diffractionmentioning
confidence: 99%