Elastomer–filler interactions and the rheology of filled rubber compounds

## Abstract The specific role of filler–rubber interactions in dynamic properties was investigated. Natural rubber compounds, filled with N330 carbon black, were used, and the filler surface was modified through a gas treatment in the solid phase. The effects of this filler surface treatment on the

Bound rubber in a filled rubber compound is formed by physical adsorption and chemisorption between the rubber and the filler. Styrene-butadiene rubber (SBR) is composed of four components of styrene, cis-1,4-, trans-1,4-, and 1,2-units. Fillerpolymer interactions in both silica and carbon black-fil

## Abstract Reinforcement, the improvement of the service life of rubber goods, is dependent on the behavior of the carbon black–elastomer interface. It is generally believed that the interaction between the filler and the matrix involves physical and chemical forces. The aim of this work is to dem

## Abstract Silica‐filled styrene–butadiene rubber (SBR) unvulcanizates and their vulcanizates with different rubber/filler interactions were prepared by using several kinds of coupling agents. Tensile tests and electron spin resonance (ESR) measurements were carried out for both unvulcanized and v

The effect of fillers and the structure of matrix rubbers on the tensile stress -strain behavior were examined with unvulcanized compounds of cis-1,4-polybutadiene. The matrix rubbers were CB11, CB22, and VCR412, which had been studied previously. The fillers were two different carbon blacks ( N110