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Structural relaxation dynamics of a silicate glass probed by refractive index and ionic conductivity

Ricardo F. Lancelotti, Ana Cândida Martins Rodrigues, Edgar Dutra Zanotto

2023Journal of the American Ceramic Society17 citationsDOI

Abstract

Abstract Relaxation occurs spontaneously in all glasses and is a fundamental step of important technological processes, such as annealing, crystal nucleation, and chemical strengthening by ion exchange. Despite extensive studies over the past decades, there are still conflicting results on whether the kinetics of structural relaxation depends on the analyzed property. Thus, in this study, we used a lithium disilicate glass as a model composition to determine the structural relaxation kinetics during physical aging experiments by measuring the time evolution of the refractive index and ionic conductivity down to 35 K below the initial fictive temperature. In all cases, variations in these properties were adequate to capture the structural changes throughout the aging experiments. At each temperature, the experimental relaxation data fit quite well with the classical stretched exponential relation. We also found that the relaxation process starts faster when probed by ionic conductivity than by refractive index; however, they show similar average relaxation times. These very small structural rearrangements are always the same, but ionic conductivity changes faster than refractive index at the beginning of the process. Our comprehensive results strongly indicate that relaxation dynamics is indeed dependent on the analyzed property.

Topics & Concepts

Ionic conductivityRelaxation (psychology)NucleationRefractive indexIonic bondingConductivityAnnealing (glass)SilicateMaterials scienceChemical physicsThermodynamicsChemistryMineralogyIonPhysical chemistryComposite materialOrganic chemistrySocial psychologyElectrolyteOptoelectronicsElectrodePsychologyPhysicsGlass properties and applicationsMaterial Dynamics and PropertiesBuilding materials and conservation
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