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Rheologica Acta

Erschienen in:

01.09.2008 | Original Contribution

Shear and normal stress relaxation in polymer blends: stress predictions from interface velocity and Laplace pressure terms

verfasst von: Kenzo Okamoto, Masaoki Takahashi

Erschienen in: Rheologica Acta | Ausgabe 7/2008

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Abstract

We derived for the first time the relationships among shear stress and normal stress differences for ellipsoidal interfaces under large step shear strains considering interface velocity term and Laplace pressure term in the expression of the stress tensor for mixtures of two Newtonian fluids. In the derivation, orientation angle of the interface is assumed to be given by the affine deformation assumption and is independent of time based on experimental results for blends with 0.048 ≤ K ≤ 0.54 where K is the ratio of droplet viscosity to matrix viscosity. For ellipsoidal droplets, the shear stress is only proportional to the first normal stress difference. On the other hand, for spheroidal droplets, proportionality among the shear stress, the first and the second normal stress differences was derived, and the ratio of the second normal stress difference to the first normal stress difference was given as a function of step strain. The shear stress and the first normal stress difference obtained experimentally satisfy the derived relationship, indicating applicability of the stress expression for polymer blends.

Vorheriger Artikel Preparation of well-dispersed magnetorheological fluids and effect of dispersion on their magnetorheological properties

Nächster Artikel Flow–diffusion interface interaction in blends of immiscible polymers

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Titel: Shear and normal stress relaxation in polymer blends: stress predictions from interface velocity and Laplace pressure terms
verfasst von: Kenzo Okamoto
Masaoki Takahashi
Publikationsdatum: 01.09.2008
Verlag: Springer-Verlag
Erschienen in: Rheologica Acta / Ausgabe 7/2008
Print ISSN: 0035-4511
Elektronische ISSN: 1435-1528
DOI: https://doi.org/10.1007/s00397-008-0279-y

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