Abstract
Hydrogels comprising cellulose nanofibrils (CNF) were used in the synthesis of continuous filaments via wet-spinning. Hydrogel viscosity and spinnability, as well as orientation and strength of the spun filaments, were found to be strongly affected by the osmotic pressure as determined by CNF surface charge and solid fraction in the spinning dope. The tensile strength, Youngâs modulus and degree of orientation (wide-angle X-ray scattering, WAXS) of filaments produced without drawing were 297 MPa, 21 GPa and 83%, respectively, which are remarkable values. A thorough investigation of the interactions with water using dynamic vapour sorption (DVS) experiments revealed the role of sorption sites in the stability of the filaments in wet conditions. DVS analysis during cycles of relative humidity (RH) between 0 and 95% revealed major differences in water uptake by the filaments spun from hydrogels of different charge density (CNF and TEMPO-oxidised CNF). It is concluded that the mechanical performance of filaments in the presence of water deteriorates drastically by the same factors that facilitate fibril alignment and, consequently, enhance dry strength. For the most oriented filaments, the maximum water vapour sorption at 95% RH was 39% based on dry weight.
Highlights
Solution, dispersion or melt of individual Dispersion of colloidal fibrils or semipolymer chains crystalline polymer bundles
All hydrogel samples are denoted according to the type of cellulose nanofibrils used (CNF or tetramethylpiperidine 1-oxyl (TEMPO)-oxidised CNF (TOCNF)) with a given solids content (e.g., âCNF 2% hydrogelâ refers to a hydrogel dope containing 2 w-% of CNF)
Our results indicate that filament stability in the presence of water can be achieved by limiting the number of water sorption sites, for example, by decreasing the fibril surface area and electrostatic charge
Summary
Dispersion or melt of individual Dispersion of colloidal fibrils or semipolymer chains (high aspect ratio) crystalline polymer bundles (low aspect ratio). Interfibrillar interactions influence of CNF hydrogel quality on the properties of the respective spun filaments. We determine the influence of CNF hydrogel solid fraction and surface charge on the ability of the fibrils to orient and form strong filaments during wet-spinning. We identify the effect of CNF surface charge on the stability of the spun filaments in the presence of water
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