US EPA

8711728 

Journal Article 

HYDRODYNAMIC RADIUS AND INTRINSIC VISCOSITY OF POLYSTYRENE IN THE CROSSOVER REGION FROM theta TO GOOD-SOLVENT CONDITIONS 

Varma, BK; Fujita, Y; Takahashi, M; Nose, T 

1984 

22 

10 

1781-1797 

English 

The radius of gyration R//g, the hydrodynamic radius R//h, and the intrinsic viscosity left bracket eta right bracket have been measured for polystyrene in cyclohexane (at the theta temperature and 44. 5 degree C), 2-butanone (at 30 degree C), and toluene (at 30 degree C) in the molecular weight range 2. 38 multiplied by 10**5 less than equivalent to M//w less than equivalent to 5. 47 multiplied by 10**6 to elucidate the excluded-volume effects on dynamical behavior in dilute polymer solutions in the crossover region from theta to good-solvent conditions. The results are compared with theoretical predictions of current thermal blob theories and the Pade approximant theory of Tanaka. It is found that the ratio of R//h/R//g decreases with an increase in the excluded-volume effect, following the prediction of the simple blob theory, but that its magnitude is about 15% higher than the theoretical value. Experimental variation of left bracket eta right bracket with R//h and/or R//g lies in between predictions of the scaling law and the Pade approximant. The concentration dependence of the diffusion coefficient is also compared with predictions of current theories.