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Articles

Fourier-transform rheology of unvulcanized styrene butadiene rubber filled with increasingly silanized silica

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Pages 269-282 | Received 21 Jun 2018, Accepted 19 Sep 2018, Published online: 05 Nov 2018
 

ABSTRACT

Silica as one the most important fillers for rubber material is routinely modified by silane to improve its compatibility with the rubber matrix. Silanization of the silica particle affects both the linear and nonlinear rheological behaviors of the compounds. Their rheological nonlinearity, however, is mostly analyzed in an indirect way from linear rheological parameters, e.g. G′(ω1, γ0) and G″(ω1, γ0), which lose their physical meaning in the nonlinear viscoelastic regime. In the present work, the nonlinearity is directly quantified by the Fourier-transform rheology (FT-Rheology) technique in terms of I3/1(ω1, γ0), the third relative higher harmonic, for unvulcanized styrene butadiene rubber compounds filled with a fixed amount of silica, but varying dosages of silane. With the proposed model for I3/1(γ0), the contributions toward nonlinearity from the filler networks at a low strain amplitude and the one from the polymer networks at high strain amplitude can be successfully separated for filled systems. The utmost nonlinearity contribution from the filler networks decreases with the silane content, which is assigned to the weakening interparticle interaction of the filler. With increasing silanization of silica, the utmost nonlinearity contribution from the polymer networks is found to increase. This nonlinear mechanical response is attributed to the enhanced interfacial interaction between the filler and polymer.

Acknowledgments

The authors gratefully acknowledge Continental Reifen Deutschland for the samples preparation and filler dispersion images (DisperGRADER and TEM). S. Nie thanks Dr. M. Abbasi for fruitful discussions and Mr. C. Botha for proof reading of the manuscript.

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