MOLECULAR-ORIENTATION AND DEFORMATION OF POLYMER-SOLUTIONS UNDER SHEAR - A FLOW LIGHT-SCATTERING STUDY

The conformational characteristics of polymer coils in dilute solution under shear flow were investigated by means of wide angle laser light scattering in an apparatus similar to one used by Cottrell, Merrill, and Smith (J. Polym. Sci., Polym. Phys. Ed. 1969, 7, 1415).(1) The pol ymer solution was subjected to steady, homogeneous shear flow in the a nnulus between concentric cylinders by rotation of the inner cylinder. By examining the angular dependence of the scattered light intensity during shear, the orientation and the lengths of the major and minor a xes of the deformed polymer molecules in solution were determined quan titatively. The solutions studied were linear polystyrenes of various molecular weights dissolved in the viscous solvent dioctyl phthalate n ear the Theta temperature. The sheaf rate dependence of the orientatio n angle of the deformed molecules was found to agree well with Zimm mo del predictions. The elastic dumbbell, Rouse, and Zimm models, however , substantially overpredict the degree of deformation of the polymer c oils. This is in agreement with results of Link and Springer (Makromol . Chen., Macromol. Symp. 1992, 61, 358; Macromolecules 1993, 26, 464.) .(2,3) In addition, the effects of concentration, molecular weight, an d polydispersity were systematically studied. The sensitivity of the c oil deformation to concentration persisted to concentrations significa ntly below c. Polydispersity had a significant effect on both the mea sured orientation and the deformation of the polymer molecules; the mo lecular weight dependence of the deformation was weaker than predicted by the Zimm model.