Structure analysis of electrically conductive polymers filled with agglomerated components

The electrical conductivity of natural rubber/polyethylene blends filled with carbon-black is much higher than those of the individual components at the same loading level. This effect cannot be explained by a higher affinity of carbon-black for one component of the blend.

## Abstract A structural analysis of an increasing plasticity effect for polymer nanocomposites filled with carbon nanotubes was carried out. It was shown that this effect was due to densely packed interfacial layer formation on an atomic scale on the smooth nanotube surfaces, which resulted in cha

Dispersion s t a t e of carbon black(CB) was studied in polymer blends which are i n c o m p a t i b l e with each o t h e r . I t was found t h a t r d i s t r i b u t e s unevenly in each component of the polymer blend. There are two types of distribution. (I) One is almost predominantly distribut

## Abstract Several carbon black (CB)‐filled binary polymer blends were prepared in Haake rheometer. Distribution states of CB and effect of morphology on the electric conductivity of different ternary composites were investigated. Under our experimental condition CB particles located preferentiall