# Decreased Thermal Conductivity of Polyethylene Chain Influenced by Short   Chain Branching

**Authors:** Danchen Luo, Congliang Huang, Zun Huang

arXiv: 1703.10290 · 2017-03-31

## TL;DR

This study uses molecular dynamics simulations to show that short chain branches in polyethylene significantly reduce its thermal conductivity, with heavier branches causing greater decreases, providing insights for designing low-thermal-conductivity polymers.

## Contribution

It demonstrates how short chain branching, especially heavier branches, can effectively lower polyethylene's thermal conductivity, a novel insight for polymer thermal management.

## Key findings

- Branching decreases thermal conductivity of PE.
- Thermal conductivity saturates at about 40% of pristine PE with increased branch density.
- Heavy branches cause a greater reduction in thermal conductivity.

## Abstract

In this paper, we have studied the effect of short branches on the thermal conductivity of a polyethylene (PE) chain. With a reverse non-equilibrium molecular dynamics method applied, thermal conductivities of the pristine PE chain and the PE-ethyl chain are simulated and compared. It shows that the branch has a positive effect to decrease the thermal conductivity of a PE chain. The thermal conductivity of the PE-ethyl chain decreases with the number density increase of the ethyl branches, until the density becomes larger than about 8 ethyl per 200 segments, where the thermal conductivity saturates to be only about 40% that of a pristine PE chain. Because of different weights, different types of branching chains will cause a different decrease of thermal conductivities, and a heavy branch will leads to a lower thermal conductivity than a light one. This study is expected to provide some fundamental guidance to obtain a polymer with a quite low thermal conductivity.

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Source: https://tomesphere.com/paper/1703.10290