Tobias Kjær Bechgaard scite author profile

Clarifying the effect of pressure on the structure of aluminosilicate glasses is important for understanding the densification mechanism of these materials under pressure and the corresponding changes in macroscopic properties. In this study, we examine changes in density, network structure, indentation hardness, and crack resistance of sodium aluminosilicate glasses with varying Al/Si ratio and thus non-bridging oxygen (NBO) content before and after 1 GPa isostatic compression at elevated temperature. With increasing NBO content, the silicate network depolymerizes, resulting in higher atomic packing density, lower hardness, and higher crack resistance. The ability of the glasses to densify under isostatic compression is higher in the high-NBO glasses and these glasses also exhibit more pronounced pressure-induced changes in mechanical properties. The 27 Al NMR data show a surprising presence of five-fold aluminum in the as-made high-NBO glasses, with additional formation upon compression. Our study therefore provides new insights into the complicated relationship between Al coordination and NBO content in aluminosilicate glasses and how it affects their densification behavior.

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Composition-Structure-Property Relations of Compressed Borosilicate Glasses

Svenson

Bechgaard

Fuglsang

et al. 2014

Phys. Rev. Applied

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Structure of MgO/CaO sodium aluminosilicate glasses: Raman spectroscopy study

Bechgaard

Scannell

Huang

et al. 2017

Journal of Non-Crystalline Solids

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Fragility and configurational heat capacity of calcium aluminosilicate glass-forming liquids

Bechgaard

Mauro

Bauchy

et al. 2017

Journal of Non-Crystalline Solids

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Parametric study of temperature-modulated differential scanning calorimetry for high-temperature oxide glasses with varying fragility

Bechgaard

Gulbiten

Mauro

et al. 2018

Journal of Non-Crystalline Solids

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