Polarity, resistivity and biocompatibility of polyethylene doped with carbon black

The resistivity and volume expansion of carbon black (CB)/high-density polyethylene (HDPE) composite with different CB volume fractions at different temperatures were measured simultaneously. A model based on Meyer's theory is proposed to explain the positive temperature coefficient resistance (PTCR

## Abstract **Summary:** Various output heaters were extruded with CB‐filled HDPE composites. The effects of crystallinity on the PTC and thermal reproducibility of the quenched, annealed, and E‐beam crosslinked heaters were examined during heating and cooling cycles at an applied voltage of 220 V.

## Abstract The electrical resistivity of high‐density polyethylene (HDPE) loaded with carbon black (CB) blends was evaluated as a function of the blending time and the melt index of HDPE. The relationship between the positive temperature coefficient effect and the room temperature volume resistivi

## Abstract The electrical conductivity of polyester resins cross‐linked with 5% of styrene and 45% of methyl methacrylate and doped with acetylene carbon black has been investigated. A high change of the electrical conductivity of the mixture was found at a critical content of carbon black ranging