In the building and construction industry today, weather resistant and flame resistant materials have become fundamental. As such, silicone coated materials have been intensively researched, as they increase a given materials resistivity to heat and flames. Due to complications and time constraints when testing coating technologies in a lab setting, more enforcement has been placed on numerical methods. Based on stitching patterns, geometry models of the material and heat transfer ...
The purpose of this research was to improve the thermal conductivity of boron-nitride filled epoxy composites. To complete this task, the interfacial adhesion in the composite needed to be improved. This was achieved by employing admicellar polymerization to coat the polystyrene and polymethyl methacrylate, on the boron nitride surface. The results indicated an increase in the thermal conductivity of the composite from 1.5 W/mK, with the use of untreated boron-nitride, ...
In this research, the effect of four different coupling agents on the thermal conductivity of an aluminum particle reinforced epoxy composite, was studied. The results concluded that with an increasing concentration of aluminum particles in the epoxy, an increase in the thermal conductivity of the composite was noted. Prior to being treated with the coupling agents, the composites experienced a thermal conductivity reading of 1.03 W/mK. Post treatment, the thermal ...
Researchers have determined the potential of increasing the thermal conductivity of insulating polymers by adding conductive fillers. One common application this may be used for, is fuel cell bipolar plates. In this article, researchers tested varying amounts of three different carbon fillers (black carbon, synthetic graphite particles, and carbon nanotubes), by adding them to polypropylene. Both single fillers and combination fillers were studied for their potential effects on the thermal ...
This study primarily focuses on the electrical and thermal conductivity of nanoparticle filled epoxy resins. Modification of polymers on a nanstructure level has revealed a new world of possibilities for multi-functional materials. Research has found that carbon nanotubes may have the potential to improve mechanical performance of conductive polymers. This research studies the thermal performance of the resins with respect to various types of carbon nanotubes, various concentrations of filler ...