Litcius/Paper detail

Linear and nonlinear shear rheology of nearly unentangled H-polymer melts and solutions

Vincenzo Ianniello, Salvatore Costanzo

2022Rheologica Acta19 citationsDOIOpen Access PDF

Abstract

Abstract We investigate the linear and nonlinear shear rheology of a marginally entangled H-polymer melt and two solutions made by diluting high molecular weight H-polymers in linear oligomer. In order to approach a nearly unentangled state, dilution is conducted at volume fractions such that the two solutions attain a similar number of entanglements of the melt. Start-up shear experiments demonstrate that the nonlinear behavior of the H-polymer melt is analogous to that of a linear melt with comparable span chain length. Concerning solutions, the increase of chain elasticity in fast flows, coupled with a lesser role of monomeric friction reduction, allows to attain strong stretch in start-up shear tests. As a result, transient strain hardening occurs. Furthermore, a failure of the Cox-Merz rule is observed for the solutions, which indicates that they better conform to a FENE-Rouse chain behavior compared to melts.

Topics & Concepts

RheologyPolymerShear (geology)Materials scienceThermodynamicsNonlinear systemShear thinningElasticity (physics)MonomerExcluded volumeMechanicsComposite materialPhysicsQuantum mechanicsRheology and Fluid Dynamics StudiesPolymer crystallization and propertiesElasticity and Material Modeling