Prediction of hydrodynamic properties of polymer solutions

A model, developed to account for the concentration dependence of the dimensions of dissolved polymers over a wide concentration range, has been combined with very simple hard sphere statistical mechanical relations to predict thermodynamic properties of the polymer solutions. Estimated values of re

In this work we present an extension of the statistical associating fluid theory (SAFT) developed for associating fluids by applying this extension to polymer solutions and blends. The polymer molecule is modeled as a flexible chain made of bonded spherical segments. These segments interact with the

We calculate quantities such as g Å [ h] b /[h] l and h Å ( f t ) b /( f t ) l for regular star-branched polymer with and without excluded volume. We have applied a numerical method introduced by Barrett for the linear chain and have solved the integral equations which are conducive to calculate the

## Abstract Galactomannans were extracted from the seeds of seven different legumes to obtain samples which differed in average molecular weight, in polydispersity, and in average mannose‐to‐galactose ratio in the molecule. Measurements were made of the viscosities as a function of shear rate and o

Thermodynamic and hydrodynamic properties of chlorine-containing carbochain polymers in solution were studied. Chemically uniform copolymers (vinyl chloride-vinyl acetate, vinyl chloride-methyl acrylate, vinyl chloride-butyl acrylate, vinyl chloride-vinylidene chloride, vinyl chloride-n-butyl ether,