V. Pasanovic-Zujo scite author profile

Shear and extensional rheological measurements were conducted in conjunction with laser light scattering (LLS) on ethylene-vinyl acetate copolymer (EVA) nanocomposites. The materials were prepared by melt-mixing EVA and commercially acquired layered silicates. Wide Angle X-Ray Scattering (WAXS) was used to ascertain the degree of layer swelling. This could be attributed to the intercalation of polymer chains into the interlayer of the silicates. The nanocomposites prepared were determined to be predominantly intercalated in nature. In shear rheological tests, the nanocomposites exhibited an increase in viscoelastic properties compared to the pure EVA. The extent of this property enhancement was not as pronounced as had been reported in many instances with respect to other polymer nanocomposites. This could be attributed to the absence of a network structure normally observed in an exfoliated system. The extensional rheological tests showed an increase in extensional flow properties. This was confirmed by the LLS, which indicated that the filled systems had higher deformability than the unfilled one.

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A Constitutive Analysis of Extensional Flow of EVA Nanocomposites

Pasanovic-Zujo

Gupta

Bhattacharya

2004

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Linear and nonlinear oscillatory and extensional flow was studied for polymer layered silicate nanocomposites of organically modified bentonite in ethylene-vinyl acetate copolymer with 18 wt.% of vinyl acetate (EVA18). It was found that the rheological properties of EVA18 nanocomposites were distinctly different from the pure copolymer. The elastic response at low frequencies was significantly enhanced in comparison to that of pure EVA18. The linear to nonlinear transition for stress relaxation measurements and the damping function were examined. The relaxation spectrum was shifted toward the longer relaxation time scales for EVA18 nanocomposites, while the dependence of the damping for EVA18 nanocomposites was much stronger than that of the EVA18. In contrast, the uniaxial extensional viscosity of EVA18 nanocomposites gave weaker strain-hardening properties. The prediction of strain-hardening behaviour for EVA18 and EVA18 nanocomposites through relaxation spectrum and the damping function based on Kaye-Bernstein-Kearsley-Zapas (K-BKZ) model is discussed. A simplified estimation of the nonlinear material parameter ß in the K-BKZ model is proposed to predict more accurately the extensional viscosity for EVA18 and EVA18 nanocomposites. Experimental data and detailed predictions are also presented in this paper.

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V. Pasanovic-Zujo

Effect of vinyl acetate content and silicate loading on EVA nanocomposites under shear and extensional flow

Shear and extensional rheology of EVA/layered silicate-nanocomposites

Morphology of EVA based nanocomposites under shear and extensional flow

A Constitutive Analysis of Extensional Flow of EVA Nanocomposites

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