Joey Kabel scite author profile

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 glasses were synthesized in the LixNa1‐xAlSiO4 series, from x = 0 to x = 1. Raman spectra, nuclear magnetic resonance (NMR) spectroscopy (Li‐7, Na‐23, Al‐27, Si‐29), and X‐ray diffraction were used to study the quenched and heat‐treated glasses. It was found that different LiAlSiO4 and NaAlSiO4 crystal phases crystallize from the glass depending on the Li/Na ratio. Raman and NMR spectra of quenched glasses suggest similar structures regardless of alkali substitution. Li‐7 and Na‐23 NMR spectra of the glass‐ceramics near the endmember compositions show evidence of several differentiable sites distinct from known LixNa1‐xAlSiO4 crystalline phases, suggesting that these measurements can reveal subtle chemical environment differences in mixed‐alkali systems, similar to what has been observed for zeolites.

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Ceramic composites: A review of toughening mechanisms and demonstration of micropillar compression for interface property extraction

Kabel

Hosemann

Zayachuk

et al. 2018

J. Mater. Res.

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Direct observation of the elasticity-texture relationship in pyrolytic carbon via in situ micropillar compression and digital image correlation

Kabel

Edwards

Sharma

et al. 2021

Carbon

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A novel fiber-fretting test for tribological characterization of the fiber/matrix interface

Kabel

Edwards

Hain

et al. 2021

Composites Part B: Engineering

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Joey Kabel

Micro-mechanical evaluation of SiC-SiC composite interphase properties and debond mechanisms

Structural dependence of crystallization in glasses along the nepheline (NaAlSiO₄) ‐ eucryptite (LiAlSiO₄) join

Ceramic composites: A review of toughening mechanisms and demonstration of micropillar compression for interface property extraction

Direct observation of the elasticity-texture relationship in pyrolytic carbon via in situ micropillar compression and digital image correlation

A novel fiber-fretting test for tribological characterization of the fiber/matrix interface

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About

Joey Kabel

Micro-mechanical evaluation of SiC-SiC composite interphase properties and debond mechanisms

Structural dependence of crystallization in glasses along the nepheline (NaAlSiO4) ‐ eucryptite (LiAlSiO4) join

Ceramic composites: A review of toughening mechanisms and demonstration of micropillar compression for interface property extraction

Direct observation of the elasticity-texture relationship in pyrolytic carbon via in situ micropillar compression and digital image correlation

A novel fiber-fretting test for tribological characterization of the fiber/matrix interface

Contact Info

Product

Resources

About

Structural dependence of crystallization in glasses along the nepheline (NaAlSiO₄) ‐ eucryptite (LiAlSiO₄) join