Comparison of Mullins Effect Anisotropy of the Elastomers Reinforced by Carbon-Black and Silica Filler

Mai Thanh-Tam, Taniguchi Yuga, Tsunoda Katsuhiko, Urayama Kenji

doi:10.1678/rheology.51.33

<p>Anisotropy of the internal damage caused by imposed deformation, which is called stress-softening or Mullins effect, was investigated for a carbon-black (CB) filled styrene butadiene rubber (SBR/CB) by a sequence of two tensile measurements. A wide-width pristine sheet specimen satisfying pure shear (planar) stretching geometry was first subjected to a single loading-unloading cycle with a maximum stretch (λ_m). The rectangular subsamples were cut out from the unloaded and relaxed sheet specimen such that the long axis had an angle of θ = 0° or 90° relative to the pre-stretching axis. Subsequently, uniaxial stretching of the subsamples was conducted, and the internal damage (D₀ or D₉₀) at each angle was evaluated as a function of λ_m from the difference in the uniaxial stress-strain data between the subsamples and the pristine samples. Almost no anisotropy (f = D₀/D₉₀ ≈ 1) was observed for the internal damage in the moderate λ_m regime of λ_m < 3. This is in contrast to a large damage anisotropy (f ≈ 3) in the corresponding λ_m regime previously reported for a silica filled SBR with silane coupling agent (SBR/Silica). The f values for SBR/CB in the high λ_m regime of λ_m > 3 increased with λ_m and became comparable to those in SBR/Silica. The significantly large difference in the internal damage anisotropy between SBR/CB and SBR/Silica reflects the differences in the types of destructed molecular bonding for the filler networks and filler/rubber interfaces between the two elastomers.</p>

Comparison of Mullins Effect Anisotropy of the Elastomers Reinforced by Carbon-Black and Silica Filler

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