The effect of pre-shear on the extensional rheology of wormlike micelle solutions

The effect of initial microstructural deformation, alignment, and morphology on the response of wormlike micelle solutions in transient uniaxial extensional flows is investigated using a pre-shear device attached to a filament stretching rheometer. In filament stretching experiments, increasing the...

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Veröffentlicht in:	Rheologica acta 2007-06, Vol.46 (6), p.861-875
Hauptverfasser:	BHARDWAJ, Avinash, RICHTER, David, CHELLAMUTHU, Manojkumar, ROTHSTEIN, Jonathan P
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Sprache:	eng
Schlagworte:	Axial stress Breakup Chemistry Colloidal state and disperse state Deformation effects Exact sciences and technology Experiments Filaments General and physical chemistry Micelles Micelles. Thin films Morphology Preconditioning Relaxation time Rheological properties Rheology Rheometry Rupture Shear rate Strain hardening Stretching Tensile stress
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container_title	Rheologica acta
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creator	BHARDWAJ, Avinash RICHTER, David CHELLAMUTHU, Manojkumar ROTHSTEIN, Jonathan P
description	The effect of initial microstructural deformation, alignment, and morphology on the response of wormlike micelle solutions in transient uniaxial extensional flows is investigated using a pre-shear device attached to a filament stretching rheometer. In filament stretching experiments, increasing the strength and the duration of the pre-shear just before stretch is found to delay the onset of strain hardening. In these experiments, the wormlike micelle solution filaments fail through a rupture near the axial midplane. The value of the elastic tensile stress at rupture is found to decrease with increasing pre-shear rate and duration. The most dramatic effects are observed at shear rates for which shear banding has been independently observed. The reduction in the strain hardening suggests that pre-shear before filament stretching might break down the wormlike micelles reducing their size before stretch. Strain hardening is also observed in capillary breakup rheometry experiments; however, the pre-sheared wormlike micelle solutions strain harden faster, achieve larger steady-state extensional viscosities and an increase in the extensional relaxation time with increasing shear rate and duration. The difference between the response of the wormlike micelles in filament stretching and capillary breakup experiments demonstrates the sensitivity of these self-assembling micelle networks to pre-conditioning.
doi_str_mv	10.1007/s00397-007-0168-9
format	Article
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In filament stretching experiments, increasing the strength and the duration of the pre-shear just before stretch is found to delay the onset of strain hardening. In these experiments, the wormlike micelle solution filaments fail through a rupture near the axial midplane. The value of the elastic tensile stress at rupture is found to decrease with increasing pre-shear rate and duration. The most dramatic effects are observed at shear rates for which shear banding has been independently observed. The reduction in the strain hardening suggests that pre-shear before filament stretching might break down the wormlike micelles reducing their size before stretch. Strain hardening is also observed in capillary breakup rheometry experiments; however, the pre-sheared wormlike micelle solutions strain harden faster, achieve larger steady-state extensional viscosities and an increase in the extensional relaxation time with increasing shear rate and duration. 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subjects	Axial stress Breakup Chemistry Colloidal state and disperse state Deformation effects Exact sciences and technology Experiments Filaments General and physical chemistry Micelles Micelles. Thin films Morphology Preconditioning Relaxation time Rheological properties Rheology Rheometry Rupture Shear rate Strain hardening Stretching Tensile stress
title	The effect of pre-shear on the extensional rheology of wormlike micelle solutions
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