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New interaction potentials for borate glasses with mixed network formers

Siddharth Sundararaman, Liping Huang, Simona Ispas, Walter Kob

2020The Journal of Chemical Physics52 citationsDOIOpen Access PDF

Abstract

We adapt and apply a recently developed optimization scheme used to obtain effective potentials for aluminosilicate glasses to include the network former boron into the interaction parameter set. As input data for the optimization, we used the radial distribution functions of the liquid at high temperature generated by ab initio molecular dynamics simulations, and density, coordination, and elastic modulus of glass at room temperature from experiments. The new interaction potentials are shown to reliably reproduce the structure, coordination, and mechanical properties over a wide range of compositions for binary alkali borates. Furthermore, the transferability of these new interaction parameters allows mixing to reliably reproduce the properties of various boroaluminate and borosilicate glasses.

Topics & Concepts

Borosilicate glassBoronMixing (physics)Materials scienceAluminosilicateThermodynamicsAlkali metalTransferabilityBinary numberMolecular dynamicsElastic modulusAb initioBulk modulusAtmospheric temperature rangeBinary systemAb initio quantum chemistry methodsRange (aeronautics)Work (physics)ModulusFlory–Huggins solution theoryBarium borateChemical physicsInteratomic potentialPair distribution functionGlass transitionMineralogyViscosityPhysical chemistryNetwork structureChemistryGlass properties and applicationsMaterial Dynamics and PropertiesAdvanced ceramic materials synthesis
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