2018
DOI: 10.1063/1.5010986
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Strain effects on the anisotropic thermal transport in crystalline polyethylene

Abstract: Thermal transport in the axial direction of polymers has been extensively studied, while the strain effect on the thermal conductivity, especially in the radial direction, remains unknown. In this work, we calculated the thermal conductivity in the radial direction of a crystalline polyethylene model and simulated the uniaxial strain effect on the thermal conductivity tensor by molecular dynamics simulations. We found a strong size effect of the thermal transport in the radial direction and estimated that the … Show more

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Cited by 38 publications
(28 citation statements)
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“…As shown in Fig. 2, all the stretched single-chain polymers show much larger k x than their unstretched counterparts, consistent with stretched PE chain 34 and bulk epoxy resin 35 vs. the unstretched ones. We found that k x of stretched Kevlar can be as high as 147.99 6 19.62 W/(mK) at 300 K, which is larger than the thermal conductivity of more than half of metals.…”
Section: A Thermal Conductivity Of Unstretched and Stretched Single-supporting
confidence: 72%
“…As shown in Fig. 2, all the stretched single-chain polymers show much larger k x than their unstretched counterparts, consistent with stretched PE chain 34 and bulk epoxy resin 35 vs. the unstretched ones. We found that k x of stretched Kevlar can be as high as 147.99 6 19.62 W/(mK) at 300 K, which is larger than the thermal conductivity of more than half of metals.…”
Section: A Thermal Conductivity Of Unstretched and Stretched Single-supporting
confidence: 72%
“…One of the most prominent successes was the prediction of high thermal conductivities of PE, which was later confirmed by experiments . Since then, a substantial number of MD simulations have been performed , to investigate the thermal transport in PE and to understand what affects it. However, the different studies use systems that are often either purely crystalline and focusing on single chains ,, or purely amorphous .…”
Section: Introductionmentioning
confidence: 97%
“…This is mainly due to the mismatch suffered by the stacked structure as phonon barriers are introduced. The thermal properties of turbostratic graphene can be described using the anisotropic ratio, , that is the ratio of in-plane to through-plane thermal conductivity [7]. The reduction of the conductivity out-of-plane gives rise to a higher anistropic ratio and for the randomly stacked turbostratic structure of graphitic materials, the thermal conductivity decreases significantly [8].…”
Section: Introductionmentioning
confidence: 99%