Relaxation behavior of conductive carbon black reinforced chlorosulfonated polyethylene composites

## Abstract Room temperature resistance relaxation was studied with respect to carbon black (CB) volume fraction, the type of polymer matrix, and the environment. It was found that resistance of CB filled poly(methylvinylsiloxane) and polypropylene (PP) conductive composites changed at room tempera

The temperature-dependent resistivity behavior of carbon black-loaded polyethylene (PE) composites irradiated both at room temperature and 170°C above the PE melting point was studied. The irradiation doses were varied. At a given loading level, irradiation at room temperature corresponded to an ene

Unidirectional composite laminates based on carbon fibers (CF) and highperformance polyethylene fibers (PEF) and their hybrids were prepared with partially polymerized methyl methacrylate (MMA) at room temperature, followed by heating at 55ЊC (well below the softening point of PEF, 147ЊC) for 2 h. T

## Abstract Conductive carbon‐black (CB)‐filled polyethylene composites were prepared after irradiation with a cobalt 60 source. The conductive composites were characterized by alternating‐current impedance spectroscopy, and the conductive mechanism of the conductive composites was analyzed in term