Effect of iron oxide on vulcanization kinetics and electrical conductance of butyl rubber composites

Rubber ceramic composite, negative temperature coef®cient of conductivity (NTCC) thermistors, are widely used in industry because of the high dependence of their electrical conductivity on temperature. The effect of iron oxide (Fe 3 O 4 ) on the vulcanization process, DC conductivity, thermoelectric

Structural changes proceeding in composites under the effect of various mechanical deformations (stretching, compression, shear, etc.) affect the structure of an electrical conducting system. Mechanical stresses, induced by deformation of composite materials during deformation, affect both the molec

The electrical and mechanical properties of new conductive rubber composites based on ethylene-propylene-diene rubber, acrylonitrile butadiene rubber (NBR), and their 50/50 (weight ratio) blend filled with conductive black were investigated. The threshold concentrations for achieving high conductivi

The results of nonisothermal kinetic analysis of the thermo-oxidative degradation in air and in oxygen of the copolymer EVA and nitrile-butadiene rubber (NBR) are presented. It was observed that similar processes take place at thermooxidative degradation in air as well as in oxygen of both investiga