The physicochemical effect of sugar alcohol plasticisers on oxidised nanocellulose gels and extruded filaments

被引:0
作者
Marcus A. Johns
Rinat Nigmatullin
Emily D. Cranston
Stephen J. Eichhorn
机构
[1] The University of British Columbia,Department of Wood Science
[2] University Walk,Bristol Composites Institute, School of Civil, Aerospace, and Mechanical Engineering
[3] University of Bristol,Department of Chemical and Biological Engineering
[4] The University of British Columbia,undefined
来源
Cellulose | 2021年 / 28卷
关键词
Oxidised nanocellulose; Sugar alcohols; Rheology; Tensile properties;
D O I
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中图分类号
学科分类号
摘要
Oxidised nanocelluloses have previously shown promise for the production of extruded filaments with high tensile strength properties. However, they also exhibit poor wet strength due to swelling upon immersion in water. This has resulted in the use of chemical cross-linkers, or co-extrusion with multivalent cations, or cationic polymers, to inhibit this. Here, we report on the effect of incorporating sugar alcohols (glycerol, sorbitol and maltitol) in an oxidised nanocellulose gel before extrusion. Whilst their presence weakens the initial gel, they enable the continuous wet spinning of filaments that are stable in aqueous media without the need for post extrusion processing. We conclude that the relative hydrophilicity of the sugar alcohol and its ability to protonate surface carboxyl groups upon drying are key parameters regarding the physicochemical effects observed.
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页码:7829 / 7843
页数:14
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