Quy‐Dong To scite author profile

Melting of monatomic glass with free surfaces has been studied by molecular dynamics simulations in models with Lennard-Jones-Gauss interatomic potential. Models have been heated up from a glassy state toward a normal liquid state. Atomic mechanism of melting has been analyzed via monitoring spatio-temporal arrangements of liquid-like atoms occurred during heating process. Liquid-like atoms are detected via the Lindemann criterion of melting. It is clear that the transition from glass into supercooled liquid of our "ordinary" glass with free surfaces exhibits a non-heterogeneous behavior, i.e., although liquid-like atoms initiate/grow mainly in the surface shell, significant amount of liquid-like atoms also initiates/grows simultaneously in the interior during heating process. We found three characteristic temperatures of melting of glass with a free surface. Temperature dependence of structure and various thermodynamic quantities of the system upon heating is also presented and discussed.

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Modeling thermal conductivity of hemp insulation material: A multi-scale homogenization approach

Sang

Tran-Le

et al. 2016

Building and Environment

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Quy‐Dong To

Predicting the compressive strength of concrete from its compositions and age using the extreme gradient boosting method

Melting of monatomic glass with free surfaces

Modeling thermal conductivity of hemp insulation material: A multi-scale homogenization approach

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