Nonlinear viscoelastic behavior of polymer melts

A rheologcal model for polymenc flmds IS proposed Thls model can descnbe non-Newtoman viscosity, shear-rate-dependent normal stresses, frequency-dependent complex vlscoslty, stress relaxatlon after largedeformation shear flow, reccnl, and hysteresls loops The model may be expanded m such a way as to

Abstraet-An appraisal of the rheological model proposed in Part I is presented. The experimental data on six fluids (four polymer solutions. one soap solution and one polymer melt) are used to test the model in various flow situations: steady simple shearing; oscillatory, small-amplitude simple shea

## Abstract **Summary:** We present and assess the use of non‐equilibrium molecular dynamics (NEMD) simulation method for the direct study of the linear viscoelastic behavior of polymer melts. The polymer melt is modeled by a collection of repulsive, anharmonic multibead chains subjected to small a

The use of polymer modified asphalts for waterproofing and in road pavement has been continually increasing worldwide, because a relatively small quantity of added polymer can significantly enhance performance and durability. The knowledge of the morphological structure of such materials is still in

Melting of acrylonitrile polymers (which have a tendency to degrade before melting) was detected during their heat treatments at high heating rates (i.e., 80°C min Ϫ1 or above). The probable reason for their melting at such higher heating rates is discussed. The melting behavior of acrylonitrile pol