Several natural and synthetic polysaccharides are able to form, under appropriate conditions, supramolecular structures, typically physical hydrogels, and, together with their biocompatibility, this explains their wide use in food, pharmaceutical and biomedical sectors. In the case of high methoxyl pectins (HMP) the gel formation is promoted by the presence of cosolutes (sugars or polyols) and low pH. The present investigation mainly regards the structuring kinetics of aqueous HMP solutions at acid pH (3.1) with the same pectin concentration (0.2% w/w) and different sucrose concentrations (from 56 to 65% w/w). Preliminary viscosity tests were performed to individuate the threshold of the sol region. A sequence of consecutive frequency sweeps was applied to each sample immediately after its preparation. The time evolution of the linear viscoelastic behavior is described by the sigmoidal profiles of both moduli at each applied frequency and more thoroughly defined through the change of the mechanical spectrum, i.e. the variation of the parameters of the generalized Maxwell model or the Friedrich-Braun model which are both suitable to provide a satisfactory data fitting. In particular, the equilibrium modulus Ge offers a significant description of the gelation kinetics and its sucrose dependence.
Keywords: Generalized Maxwell and Friedrich-Braun models; High methoxyl pectin; Mechanical spectroscopy.
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