Publication detail
Importance of Melt Flow Direction during Injection Molding on Polymer Heat Sinks’ Cooling Efficiency
GUZEJ, M. ZACHAR, M. KOMÍNEK, J. KOTRBÁČEK, P. BRACHNA, R.
English title
Importance of Melt Flow Direction during Injection Molding on Polymer Heat Sinks’ Cooling Efficiency
Type
journal article in Web of Science
Language
en
Original abstract
Polymers with highly conductive fillers could possibly replace standardly used materials, such as aluminum and copper alloys, for passive cooling purposes. The main problem of the composite polymer-based heat sinks is that their high thermal conductivity is uneven. The orientation of this anisotropy is set according to the position of the highly thermally conductive filler. Its orientation is influenced by the melt flow during the polymer heat sink molding process. This article shows that change of the melt flow inside the mold cavity can improve the overall cooling efficiency of a polymer heat sink, which leads to lower temperatures on the heat source used. Two polymer heat sinks of identical geometries were produced. Their high thermal conductivity was given by the use of graphite flakes as the filler. The only difference between the heat sinks was in the position of the fan gate during their production. Different temperatures of the heat source between the two heat sinks were observed for the same measurement conditions. The measurements were conducted at Heatlab, BUT.
English abstract
Polymers with highly conductive fillers could possibly replace standardly used materials, such as aluminum and copper alloys, for passive cooling purposes. The main problem of the composite polymer-based heat sinks is that their high thermal conductivity is uneven. The orientation of this anisotropy is set according to the position of the highly thermally conductive filler. Its orientation is influenced by the melt flow during the polymer heat sink molding process. This article shows that change of the melt flow inside the mold cavity can improve the overall cooling efficiency of a polymer heat sink, which leads to lower temperatures on the heat source used. Two polymer heat sinks of identical geometries were produced. Their high thermal conductivity was given by the use of graphite flakes as the filler. The only difference between the heat sinks was in the position of the fan gate during their production. Different temperatures of the heat source between the two heat sinks were observed for the same measurement conditions. The measurements were conducted at Heatlab, BUT.
Keywords in English
polymer heat sink; thermal management; thermal conductivity; composites; anisotropy
Released
07.04.2021
Publisher
MDPI
ISSN
2073-4360
Volume
13
Number
8
Pages from–to
1–13
Pages count
13
BIBTEX
@article{BUT171142,
author="Michal {Guzej} and Martin {Zachar} and Jan {Komínek} and Petr {Kotrbáček} and Róbert {Brachna},
title="Importance of Melt Flow Direction during Injection Molding on Polymer Heat Sinks’ Cooling Efficiency",
year="2021",
volume="13",
number="8",
month="April",
pages="1--13",
publisher="MDPI",
issn="2073-4360"
}