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As technology advances, the need for inexpensive polymer-based composites possessing high thermal conductive properties has become more and more important. Previously, the addition of thermal conductive particles, such as alumina, boron nitride and alumina nitride, has caused an increase in the thermal conductivity of the composite. Although an increase in thermal conductivity is present, an increase in fabrication costs is also experienced as a higher quantity of particles is required, ...
In this article, researchers set out to determine the thermal characteristics of boron nitride reinforced high-density polyethylene composites. Various filler contents were studied through thermal characterization and it was determined that the composites containing 30% filler elicited the best thermal insulation and mechanical properties. The results displayed that the lower the filler content, the higher the thermal conductivity of the reinforced composite. Researchers also concluded that the smaller the boron nitride ...
During a melt blending process, carbon nanotubes (CNTs) were added to a poly(vinylidene fluoride)/Boron nitride (PVDF/BN) composite, to increase the thermal conductivity of this polymer composite, for uses in the electronic industry. After this process, the thermal and electrical conductivities, along with any microstructure changes were investigated. It was determined that with the addition of CNTs, the thermal conductivity rating of the composite increased, as well as ...