Molecular dynamics simulation of the formation mechanism of the thermal conductive filler network of polymer nanocomposites

Abstract: In this work, the thermal transfer capabilities of spherical and laminar/spherical filled polymer nanocomposites (PNCs) were systematically investigated by using molecular dynamics (MD) simulation. The effects of various factors such...

“…The generation of heat conduction in solids can be caused by the movement of free electrons and phonon diffusion; 76,77 phonons can be regarded as the smallest unit of quantization of periodic lattice vibration. Polymers can be treated as "crystals" composed of very fine grains with only a few lattice spacings, and the directional motion of phonons inside can generate heat flow.…”

Structure and properties of polymer/two-dimensional nanomaterials studied via molecular dynamics simulation: a review

“…The generation of heat conduction in solids can be caused by the movement of free electrons and phonon diffusion; 76,77 phonons can be regarded as the smallest unit of quantization of periodic lattice vibration. Polymers can be treated as "crystals" composed of very fine grains with only a few lattice spacings, and the directional motion of phonons inside can generate heat flow.…”

Structure and properties of polymer/two-dimensional nanomaterials studied via molecular dynamics simulation: a review

Realizing the curing of polymer composite materials by using electrical resistance heating: A review

The optimal dimensions of hexagonal-boron nitride nanosheets as thermally conductive fillers: The thinner the better?