Polymer Systems: Deformation and Flow: Proceedings of the 1966 Annual Conference of the British Society of Rheology |
Contents
Rheological Properties of Polymer Solutions | 33 |
An Experimental Investigation of the Elastic Deformation of Butyl | 51 |
Determination of StressStrain Relations from Complex Modulus | 85 |
Copyright | |
19 other sections not shown
Common terms and phrases
anisotropy approximation axis behaviour birefringence boundary conditions butyl benzyl phthalate calculated CALIFORNIA LIBRARY cellulose chains coefficients cold drawing complex modulus components cone and plate constant cosec³ creep compliance crystalline crystallized deformation derivatives di-n-octyl phthalate dyn cm-2 effect elastic equation experimental fibres FIGURE flow fluid frequency function gap angle given increase lamellae linear viscoelastic liquid load loss factor material measurements mechanical properties melt method modulus molecular weight Newtonian Newtonian fluid normal stress observed obtained occur orientation parallel parameter particles peak phthalate Phys plane plasticizer plotted polyethylene polyethylene terephthalate polyisobutylene polymer polyvinyl pseudoplastic range rate of shear ratio recovery relaxation rheogoniometer rheological rotation rubber samples shear rate shear stress shown in Fig shows simple shear slip slot solution solvent strain rate stress-strain curves structure surface Table temperature tensile theory tion tube UNIVERSITY OF CALIFORNIA values velocity viscoelastic viscosity zero