首页|Comparison of all atom and united atom models for thermal transport calculations of amorphous polyethylene
Comparison of all atom and united atom models for thermal transport calculations of amorphous polyethylene
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NSTL
Elsevier
Polymer simulations routinely employ models with different molecular resolutions。 United atom (UA) models are one such example, where groups of certain atoms in a molecule are clustered into superatoms。 Although their computational simplicity makes them particularly attractive for studying a wide range of polymer properties, the missing degrees of freedom in UA models can impact certain properties that are intimately linked to localized vibrations, such as the heat capacity and the thermal transport coefficient kappa。 In contrast, the numerically exhausting all atom (AA) models produce results that better match experimental data。 In this work, we systematically investigate and compare kappa obtained from an AA and a UA models for an amorphous polyethylene system。 The results indicate that the UA description may not be a suitable model for evaluating thermal transport, since it underestimates kappa in comparison to an AA description and the experimental value。 The coarse-graining leads to the softer interactions and its presence is highlighted in a weaker mechanical response from the UA model, thus also underestimates kappa。 We further consolidate our findings by extracting the bonded and the nonbonded contributions to kappa within the framework of the single chain energy transfer model。
NSTL
Elsevier
