Rheological differences among liquid‐crystalline polymers. II. Disappearance of negative N1 in densely packed lyotropes and thermotropes

The steady‐state viscosities η and first normal stress differences N1 as functions of the shear rate γ are measured for highly concentrated and densely packed solutions and melts of hydroxypropylcellulose (HPC) and a polyester [OQO(OEt)10] made from the condensation of 1,10‐decane‐bis‐benzoyl chloride and ethoxy substituted hydroquinone. As the concentration of HPC is increased, systematic departures from the predictions of the Doi theory are found. First, beginning at a concentration C of around 30% by weight, the zero‐shear viscosity begins to increase, rather than decrease, with increasing concentration. Then, at a concentration of 35%, the shear rate γmax at which N1 reaches a local maximum begins to decrease, rather than increase, with concentration, the viscoelastic activation energy of the solution begins to exceed that of the solvent, and the shape of the curve of N1 versus shear rate begins to become temperature sensitive. At a concentration of 55% at room temperature, the region of negative N1...