Birefringence, x-ray scattering, and neutron scattering measurements of molecular orientation in sheared liquid crystal polymer solutions

K. Hongladarom, V. M. Ugaz, D. K. Cinader, Wesley Roth Burghardt*, J. P. Quintana, B. S. Hsiao, M. D. Dadmun, W. A. Hamilton, P. D. Butler

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

101 Scopus citations


Recent studies of molecular orientation in sheared liquid crystalline polymers have often yielded contradictory results. To check the self-consistency of methods for quantitative measurements of molecular orientation, liquid crystalline solutions of (hydroxypropyl)cellulose [HPC] and poly(benzyl glutamate) [PBG] have been studied using flow birefringence, X-ray scattering, and neutron scattering. HPC X-ray scattering patterns show an arclike pattern with a distinct peak as a function of scattering vector, while PBG patterns show a more diffuse equitorial streak. These differences are attributed to more strongly correlated lateral packing in HPC solutions due to their higher concentration. Measurements of orientation in steady shear flow agree well among the three techniques. Lyotropic HPC and PBG solutions differ in orientation at low shear rates. HPC solutions exhibit near zero orientation at low rates, while X-ray and neutron scattering measurements confirm previous birefringence data showing ; a low shear rate plateau of moderate orientation in PBG. Differences with recent neutron scattering measurements on PBG solutions that show low orientation at low shear rate are attributed to choice of solvent, rather than choice of technique. X-ray and optical data are consistent in showing decreasing orientation in HPC solutions during relaxation, but discrepancies are found in relaxation of PBG solutions. Large increases in flow birefringence suggest substantial orientation enhancement. X-ray data on one PBG solution confirm increasing orientation, but X-ray and neutron scattering data on a more concentrated solution show only modest changes in orientation. It is suggested that flow birefringence fails in this case due to texture coarsening to the point where there is no longer effective averaging over the distribution of director orientations along the light path.

Original languageEnglish (US)
Pages (from-to)5346-5355
Number of pages10
Issue number16
StatePublished - Jul 29 1996

ASJC Scopus subject areas

  • Organic Chemistry
  • Polymers and Plastics
  • Inorganic Chemistry
  • Materials Chemistry


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