Polymer composites with high thermal conductivity optimized by polyline-folded graphite paper.

Owing to overheating of electronic components during work, more and more attention has been paid to the research of high thermal conductivity polymer composites in recent years. However, traditional way to improve the thermal conductivity of polymer is not ideal. Here, a high-performance polyline-folded graphite paper (PFGP)/epoxy resin (EP) composite was prepared by using polyline-folded graphite paper and liquid epoxy resin as fillers and matrix, respectively. Its out-of-plane thermal conductivity and the improvement efficiency per 1 wt% are as high as 24.19 Wm −1 K −1 and 349%, respectively. Most importantly, this approach is very simple and can be industrialized compared to traditional polymer compounding methods. The thermodynamic finite element analysis in this work simulated the thermal conductivity of PFGP/EP composite at different mass fractions, which can verify the accuracy of the experimental values. These results indicate that the PFGP/EP composites have great prospects in the field of thermal interface materials. • Polyline-Folded graphene paper can create ultra-efficient heat transfer paths. • The prepared composite has an extremely high thermal conductivity. (24.19 Wm−1K−1). • The prepared composite is an excellent candidate for CPU heat dissipation. • The prepared composite can be initially industrialized. [ABSTRACT FROM AUTHOR]