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Mechanical properties of an interpenetrating network poly(vinyl alcohol)/alginate hydrogel with hierarchical fibrous structures

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Bioinspired hierarchical fibrous structures were constructed in an interpenetrating poly(vinyl alcohol, PVA)/alginate hydrogel network to improve its mechanical properties. The interpenetrating hydrogel network with hierarchical fibrous structures was prepared by… Click to show full abstract

Bioinspired hierarchical fibrous structures were constructed in an interpenetrating poly(vinyl alcohol, PVA)/alginate hydrogel network to improve its mechanical properties. The interpenetrating hydrogel network with hierarchical fibrous structures was prepared by combining the confined drying method and freeze–thaw method. First, Ca2+ cross-linked alginate formed a nano–micro hierarchical fibrous structure via the confined drying method. Then, PVA that was uniformly distributed among the Ca2+–alginate chains was cross-linked by hydrogen bonding via the freeze–thaw method, further dividing the hierarchical fibers into finer fibers. The results of a tensile test demonstrated that both the tensile stress and fracture energy improved by more than double after the introduction of 2 wt% PVA, achieving a combination of high strength (∼12.9 MPa), high toughness (∼13.2 MJ m−3) and large strain (∼161.4%). Cyclic tensile tests showed that a hysteresis loop existed on the loading–unloading curves of the hydrogel along the fibrous directions, and a good self-recovery property emerged after resting for a period of time. The hydrogel with hierarchical fibrous structures constructed by alginate and PVA can be employed in biomedical applications in the future.

Keywords: hierarchical fibrous; poly vinyl; fibrous structures; hydrogel; network; alginate

Journal Title: RSC Advances
Year Published: 2022

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