Dynamic rheological behavior of polyfluorinated ethylene propylene/polypropylene blend melts

The polyfluorinated ethylene propylene (FEP)/polypropylene (PP) blend was compounded at melt state in a twin-screw extruder. The melt dynamic viscoelasticity of FEP/PP blends was measured using a Bohlin rheometer with the extended temperature option under experimental conditions with temperature scope from 270°C to 280°C and shear frequency ( ω) varying from 10 −2 to 10 1 s −1 . The results showed that the shear storage modulus ( G′) and shear loss modulus ( G″) increased nonlinearly, while the dynamic complex viscosity ( η*) decreased slightly with increasing ω. The G′ and G″ were an exponential function of ω. The G′, G″, and η* of the blend melts decreased with an addition of the PP weight fraction [Formula: see text], and the relationship between them might be expressed by a multinomial third-order equation. This phenomenon might be attributed to the difference in viscoelasticity between the FEP melt and PP melt. The value of tan δ of the blend melts achieved the maximum at about 10 0 s −1 .