Litcius/Paper detail

Viscoelastic phenomena in methylcellulose aqueous systems: Application of fractional calculus

Isaac Y. Miranda-Valdez, Jesús G. Puente-Córdova, Flor Y. Rentería-Baltiérrez, Lukas Fliri, Michael Hummel, Antti Puisto, Juha Koivisto, Mikko J. Alava

2023Food Hydrocolloids28 citationsDOIOpen Access PDF

Abstract

Fractional calculus models can potentially describe the viscoelastic phenomena in soft solids. Nevertheless, their successful application is limited. This paper explored the potential of using fractional calculus models to describe the viscoelastic properties of soft solids, focusing on methylcellulose aqueous systems. Methylcellulose is an important food additive, and it is known for its complex rheological behaviors, including thermogelation, which still puzzle rheologists. Through dynamic mechanical analysis and fractional rheology, we demonstrated that fractional calculus described the frequency- and temperature-dependent rheology of methylcellulose. This paper also showcased how including one springpot could potentially replace numerous spring-dashpot arrangements. Our findings using fractional calculus suggested that the thermogelation of methylcellulose involves the cooperative mobility of polymer chains and can be described as a process analogous to the glass transition in polymers. This study highlighted the power of combining fractional calculus and rheology to understand complex viscoelastic phenomena in soft solids.

Topics & Concepts

Fractional calculusRheologyViscoelasticityCalculus (dental)Aqueous solutionPolymerMaterials scienceMathematicsChemistryApplied mathematicsComposite materialPhysical chemistryDentistryMedicinePolysaccharides Composition and ApplicationsRheology and Fluid Dynamics StudiesPolysaccharides and Plant Cell Walls