2017
DOI: 10.3389/fmats.2017.00001
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Pressure-Induced Densification of Oxide Glasses at the Glass Transition

Abstract: Densification of oxide glasses at the glass transition offers a novel route to develop bulk glasses with tailored properties for emerging applications. Such densification can be achieved in the technologically relevant pressure regime of up to ~1 GPa. However, the present understanding of the composition-structure-property relationships governing these glasses is limited, with key questions, e.g., related to densification mechanism, remaining largely unanswered. Recent advances in structural characterization t… Show more

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Cited by 72 publications
(89 citation statements)
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References 155 publications
(307 reference statements)
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“…This agrees with the positive correlation between E and C g reported for a wide range of different materials including oxide, oxynitride, and metallic glasses . Furthermore, it is known that both hardness and elastic moduli increase linearly with increasing density upon isostatic pressure treatment …”
Section: Mechanical Property Predictionsupporting
confidence: 90%
“…This agrees with the positive correlation between E and C g reported for a wide range of different materials including oxide, oxynitride, and metallic glasses . Furthermore, it is known that both hardness and elastic moduli increase linearly with increasing density upon isostatic pressure treatment …”
Section: Mechanical Property Predictionsupporting
confidence: 90%
“…As far as we are aware so far no comprehensive experimental investigations have been performed in order to analyze the dependence of vitrification parameters on the rate of change of pressure. Such approach seems to us to represent a very useful alternative tool in varying the properties of glasses like the change of the glass transition temperature by pressure or pressure‐induced densification of glasses similar to vitrification in cooling…”
Section: Discussionmentioning
confidence: 99%
“…As a glass is compressed, the ionic environments can change in different ways, including a coordination number increase, a change in bond distances, angles, and in the types and amounts of linkages present (e.g., P-O-Al, P-O-P). In the case of Al, the most obvious structural change is an increase in coordination number, as observed in various oxide glasses (Allwardt et al, 2004;Kapoor et al, 2017c). The comparative abundance of each aluminum species is proportional to the area under its peak and the fitted values are given in Table 3.…”
Section: P and 27 Al Mas Nmr Spectroscopy: Densified Glassesmentioning
confidence: 99%
“…The application of pressure enables tuning of the interatomic distances and bonding patterns in glassy solids (Kapoor et al, 2017c), providing an additional degree of freedom for altering glass properties compared to varying composition or temperature alone. Understanding the gradual or abrupt densification mechanisms involving various structural transitions is thus an important task in glass science and engineering, but it is complicated by the intrinsic atomic-scale disorder in glasses and the experimental difficulties in undertaking in situ high-pressure characterization experiments (Huang and Kieffer, 2004).…”
Section: Introductionmentioning
confidence: 99%
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