Examination of the temperature coefficient of polystyrene. Effect of solvent, temperature, and molecular weight

I t has long been assumed that the effect of temperature on the diffusion coefficient D , the sedimentation coefficient s , and other hydrodynamic parameters is correctly described by Walden's rule and its extensions, i.e., hydrodynamic properties of dilute solutions of macromolecules scale linearl

The dependences of the specific viscosity of several polyelectrolytes on polyelectrolyte concentration, salt concentration or solution ionic strength, solution pH value, solvent quality, and solution temperature were systematically investigated. We found that the specific viscosity obeys a more gene

The phase diagram and cloud point surface for the ternary system polystyrene/polybutadiene/tetralin were determined a t 29", 87", and 143°C. Polystyrenes and polybutadienes of narrow molecular weight distribution were used to study the effect of molecular weight on the cloud point concentration. The

We investigated the effects of polymer molecular weight and temperature on Case II transport in the poly(methyl methacrylate)/methanol (PMMA/MeOH) system by a laser interferometric technique, using monodisperse polymer samples. Both the induction process and the steady-state front propagation were i