Transient rheological behavior of lyotropic solutions of ethyl cellulose in m-cresol

Transient rheological features of anisotropic 30 and 40 wt.% ethyl-cellulos e/m-cresol solutions were investigated, taking as a reference other lyotrop es like poly(gamma-benzylglutamate) in m-cresol, poly(p-phenylene-terephtha lamide) in sulfuric acid and hydroxypropylcellulose in water. Strain scalin g oscillations before reaching steady slate, with a half-period of 20 strai n units for 30 wt.% and 22.5 strain units for 40 wt.% in both stress growth and transient viscosity in creep, revealed that director tumbling takes pl ace for ethylcellulose solutions. Large strain recoveries (2-3 strain units ) obtained in recoil experiments confirmed the hypothesis of a tumbling reg ime. In contrast to the majority of reported lyotropes, we did not observe a master curve of strain recovery versus the product of preshear rate by ti me. This result appears to be associated with the existence of another mech anism of relaxation, in addition to unwinding of the defect texture created by tumbling. Dynamic viscoelastic results after cessation of flow suggest that a slower mechanism of relaxation, associated with texture or polydomai n coarsening, takes place.