Effect of montmorillonite on the rheological properties of dually crosslinked guar gum-based hydrogels

Effect of montmorillonite on the rheological properties of dually crosslinked guar gum-based hydrogels

ABSTRACT One strategy to create chemical and physical cross‐links simultaneously is to introduce into the chemical network hydrogen bonding with clay nanofillers. Understanding the relaxation mechanisms of these systems is crucially important and has drawn the extensive interest of many scientists....

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Published in:Journal of applied polymer science Vol. 132; no. 5; pp. np - n/a
Main Authors: Branca, Caterina, Crupi, Cristina, D'Angelo, Giovanna, Khouzami, Khaoula, Rifici, Simona, Visco, Annamaria, Wanderlingh, Ulderico
Format: Journal Article
Language:English
Published: Hoboken Blackwell Publishing Ltd 05-02-2015
Wiley Subscription Services, Inc
Subjects:
biomaterials
clay
Clay (material)
Crosslinking
Density
Hydrogels
Materials science
Montmorillonite
Nanostructure
Networks
Polymers
Rheological properties
rheology
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Summary:ABSTRACT One strategy to create chemical and physical cross‐links simultaneously is to introduce into the chemical network hydrogen bonding with clay nanofillers. Understanding the relaxation mechanisms of these systems is crucially important and has drawn the extensive interest of many scientists. In this work, the influence of different amounts of montmorillonite on the structural and rheological properties of guar gum hydrogels was investigated. Depending on the clay content, different nanostructures were identified by X‐ray diffraction (XRD) and their effect on the rheological properties of the dual hydrogels was studied. From stress and frequency sweep tests it emerged that all the samples exhibit a weak gel behavior and showed a maximum for G″ that can be ascribed to the breaking and reforming of transient physical crosslinks. This relaxation mode is more pronounced for the hydrogel for which a minimum in the swelling degree was observed. On the basis of these results, a model structure was proposed according to which the clay sheets act as effective multifunctional cross‐linkers. The more homogeneously dispersed are the clay platelets, the higher is the density of physical crosslinks. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2015, 132, 41373.
Bibliography:istex:3E06A25CC96B4F88C90FF97A55DC3C9676ECCFA8
ark:/67375/WNG-C72ZLLJ3-9
ArticleID:APP41373
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0021-8995
1097-4628
DOI:10.1002/app.41373