Issue 20, 2015

The filler–rubber interface in styrene butadiene nanocomposites with anisotropic silica particles: morphology and dynamic properties

Abstract

Silica–styrene butadiene rubber (SBR) nanocomposites were prepared by using shape-controlled spherical and rod-like silica nanoparticles (NPs) with different aspect ratios (AR = 1–5), obtained by a sol–gel route assisted by a structure directing agent. The nanocomposites were used as models to study the influence of the particle shape on the formation of nanoscale immobilized rubber at the silica-rubber interface and its effect on the dynamic-mechanical behavior. TEM and AFM tapping mode analyses of nanocomposites demonstrated that the silica particles are surrounded by a rubber layer immobilized at the particle surface. The spherical filler showed small contact zones between neighboring particles in contact with thin rubber layers, while anisotropic particles (AR > 2) formed domains of rods preferentially aligned along the main axis. A detailed analysis of the polymer chain mobility by different time domain nuclear magnetic resonance (TD-NMR) techniques evidenced a population of rigid rubber chains surrounding particles, whose amount increases with the particle anisotropy, even in the absence of significant differences in terms of chemical crosslinking. Dynamic measurements demonstrate that rod-like particles induce stronger reinforcement of rubber, increasing with the AR. This was related to the self-alignment of the anisotropic silica particles in domains able to immobilize rubber.

Graphical abstract: The filler–rubber interface in styrene butadiene nanocomposites with anisotropic silica particles: morphology and dynamic properties

Supplementary files

Article information

Article type
Paper
Submitted
06 Mar 2015
Accepted
09 Apr 2015
First published
10 Apr 2015

Soft Matter, 2015,11, 4022-4033

The filler–rubber interface in styrene butadiene nanocomposites with anisotropic silica particles: morphology and dynamic properties

L. Tadiello, M. D'Arienzo, B. Di Credico, T. Hanel, L. Matejka, M. Mauri, F. Morazzoni, R. Simonutti, M. Spirkova and R. Scotti, Soft Matter, 2015, 11, 4022 DOI: 10.1039/C5SM00536A

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