Journal article 1076 views
Relaxation time of polyelectrolyte solutions: When μ-rheometry steps in charge
Francesco Del Giudice 
,
Vincenzo Calcagno,
Valeria Esposito Taliento,
Francesco Greco,
Paolo Antonio Netti,
Pier Luca Maffettone
,
Vincenzo Calcagno,
Valeria Esposito Taliento,
Francesco Greco,
Paolo Antonio Netti,
Pier Luca Maffettone
Journal of Rheology, Volume: 61, Issue: 1, Pages: 13 - 21
Swansea University Author:
Francesco Del Giudice
Full text not available from this repository: check for access using links below.
DOI (Published version): 10.1122/1.4965930
Abstract
Measuring the longest relaxation time of a viscoelastic liquid is an important step in its rheological characterization. In several instances, however, such measurement is unfeasible through conventional techniques, e.g., frequency response in linear viscoelasticity or measure of first normal stress...
| Published in: | Journal of Rheology |
|---|---|
| ISSN: | 0148-6055 1520-8516 |
| Published: |
Society of Rheology
2017
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| Online Access: |
Check full text
|
| URI: | https://cronfa.swan.ac.uk/Record/cronfa41011 |
| Abstract: |
Measuring the longest relaxation time of a viscoelastic liquid is an important step in its rheological characterization. In several instances, however, such measurement is unfeasible through conventional techniques, e.g., frequency response in linear viscoelasticity or measure of first normal stress difference. This difficulty is often found for very dilute macromolecular solutions. The case of polyelectrolyte solutions is especially important for their relevance in several bioengineering problems: Even theoretical predictions for this case can often not be tested in the absence of an experimental characterization. In this work, we succeed in measuring the relaxation time of two dilute/semidilute polyelectrolyte solutions as a function of added salt concentration. The relaxation time is measured through a novel microrheometrical technique based on the viscoelasticity-induced alignment of particles suspended in a microfluidic channel. We apply such technique to characterize two polyelectrolyte solutions, namely, hyaluronic acid and chitosan solutions. Relaxation times as small as ≈ 60 μs are detected, which are otherwise unmeasurable when using both conventional or other μ-rheometrical techniques. |
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| Keywords: |
Time measurement, Shear rate dependent viscosity, Solution polymerization, Polyelectrolytes, Relaxation times, Solvents, Viscosity, Microfluidics, Viscoelasticity |
| College: |
Faculty of Science and Engineering |
| Issue: |
1 |
| Start Page: |
13 |
| End Page: |
21 |