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Nucleation pathways in barium silicate glasses

Matthew E. McKenzie, Binghui Deng, D. C. Van Hoesen, Xinsheng Xia, David E. Baker, Aram Rezikyan, Randall E. Youngman, K. F. Kelton

2021Scientific Reports25 citationsDOIOpen Access PDF

Abstract

Nucleation is generally viewed as a structural fluctuation that passes a critical size to eventually become a stable emerging new phase. However, this concept leaves out many details, such as changes in cluster composition and competing pathways to the new phase. In this work, both experimental and computer modeling studies are used to understand the cluster composition and pathways. Monte Carlo and molecular dynamics approaches are used to analyze the thermodynamic and kinetic contributions to the nucleation landscape in barium silicate glasses. Experimental techniques examine the resulting polycrystals that form. Both the modeling and experimental data indicate that a silica rich core plays a dominant role in the nucleation process.

Topics & Concepts

NucleationSilicate glassSilicateCluster (spacecraft)BariumChemical physicsMolecular dynamicsPhase (matter)Monte Carlo methodMaterials scienceChemistryThermodynamicsMineralogyComputer sciencePhysicsComputational chemistryMathematicsMetallurgyProgramming languageStatisticsOrganic chemistryGlass properties and applicationsMaterial Dynamics and PropertiesMineralogy and Gemology Studies