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Stress relaxation as a microstructural probe for immiscible polymer blends (1997)

Vinckier, Inge ; Mewis, J. ; Moldenaers, P.

Springer

Rheologica acta 36 (1997), S. 513-523

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ISSN: 1435-1528

Keywords: Key words Immiscible blends ; stress relaxation ; Rayleigh instabilities ; blend morphology

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Abstract Relaxation has been investigated in immiscible blends that consist of slightly viscoelastic components. Both the shear and normal stresses have been measured after cessation of steady shear flow as well as after transient shear histories. The latter can generate a fibrillar structure which can relax by either retraction or break-up via end-pinching or Rayleigh instabilities. Each of these three relaxation mechanisms is reflected in the shape of the stress curves, from which also the corresponding structural time scales can be deduced. The experimental results have been used to evaluate the Doi-Ohta and Lee-Park models for immiscible blends. The scaling relations by Doi-Ohta are confirmed by the experimental results, but none of the existing models can correctly predict the complex relaxation behaviour observed for a highly deformed droplet phase. In the present study an alternative approach has been proposed. The stress relaxation due to fibril break-up via Rayleigh instabilities has been predicted successfully by combining physical models for the structural changes with the basic approach of the Doi-Ohta model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003970050066

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Elastic recovery of immiscible blends 1. Analysis after steady state shear flow (1999)

Vinckier, I. ; Moldenaers, P. ; Mewis, J.

Springer

Rheologica acta 38 (1999), S. 65-72

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ISSN: 1435-1528

Keywords: Key words Immiscible blends ; Flow-induced morphology ; Elastic recovery ; Blend rheology

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Abstract Due to the interfacial tension, immiscible blends can show an elastic recovery that is substantially larger than that of their pure components. Here it is attempted to relate the elastic recovery after steady shear flow to the underlying morphology. On the one hand, the predictions of the Palierne and the Doi-Ohta models are calculated for the flow conditions during recoil. On the other hand, systematic recoil experiments after steady state shearing have been performed on a model blend. As the component polymers hardly show any recoil under the stresses applied in these tests, the measured recovery can be attributed completely to the action of the interface. Comparison of the model predictions with the experimental results shows that the recoverable strain can be derived quantitatively from the linear Palierne theory. Although the droplet deformation remained limited during the preshear, the retardation time predicted by this model has to be multiplied by the aspect ratio of the droplet phase to the power 2/3 to describe the experiments. For conditions in which the material does not show an intrinsic length scale, particular scaling relations as derived from the Doi-Ohta theory are found to apply also to recoil.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003970050156

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