Litcius/Paper detail

Composition–structure–property relationships of transparent Ca–Al–Si–O–N oxynitride glasses: The roles of nitrogen and aluminum

Sharafat Ali, Adam J. Ellison, Jian Luo, Mattias Edén

2022Journal of the American Ceramic Society18 citationsDOIOpen Access PDF

Abstract

Abstract We explore the formation and composition–structure–property correlations of transparent Ca–Al–Si–O–N glasses, which were prepared by a standard melt‐quenching technique using AlN as the nitrogen source and incorporating up to 8 at.% of N. Their measured physical properties of density, molar volume, compactness, refractive index, and hardness—along with the Young, shear, and bulk elastic moduli—depended roughly linearly on the N content. These effects are attributed primarily to the improved glass‐network cross‐linking from N compared to O, rather than the formation of higher‐coordination AlO 5 and AlO 6 groups, where 27 Al magic‐angle‐spinning nuclear magnetic resonance experimentation revealed that aluminum is predominately present in tetrahedral coordination as AlO 4 units. Yet, several physical properties, such as the refractive index along with the bulk, shear, and Young's elastic moduli, increase concomitantly with the Al content of the glass. We discuss the incompletely understood mechanical–property boosting role of Al as observed both herein and in previous reports on oxynitride glasses, moreover suggesting glass‐composition domains that are likely to offer optimal mechanical properties.

Topics & Concepts

Materials scienceRefractive indexMolar volumeAluminiumSilicon oxynitrideCoordination numberPhysical propertyMineralogyShear (geology)Composite materialSilicon nitrideChemistryThermodynamicsIonOptoelectronicsLayer (electronics)PhysicsOrganic chemistryGlass properties and applicationsAdvanced ceramic materials synthesisLuminescence Properties of Advanced Materials