6533b85afe1ef96bd12b9e8c

RESEARCH PRODUCT

Linear Viscoelasticity of Liquid-Crystalline Polymers

L. FaitelsonE. E. Jakobson

subject

Materials sciencePolymers and PlasticsGeneral MathematicsRheometerPure shearCondensed Matter PhysicsCondensed Matter::Soft Condensed MatterPhysics::Fluid DynamicsBiomaterialsSimple shearShear rateShear modulusMechanics of MaterialsCritical resolved shear stressCeramics and CompositesShear stressComposite materialShear flow

description

A linear (small-amplitude) periodic shear deformation of anisotropic viscoelastic liquids obeying the Akay–Leslie rheological model is considered. The frequency dependences of the real and imaginary components of the complex shear modulus and complex normal-stress coefficient are determined. A comparison between calculation results and test data on the shear flow of poly(γ-benzylglutamate) in m-cresol is carried out. It is stated that, if the material is characterized by some initial orientation, both components of the complex shear modulus contain a multiplier which depends on the degree of the initial orientation and increases the values of the components compared with those for an initially isotropic material. The model predicts that, in a periodic shear flow, the components of shear and normal stresses are constant and, like the components of shear modulus, are independent of deformation frequency. If the parameter d 0 of the Akay–Leslie model is equal to zero, the values of its other parameters can be determined from experimental results on periodic shear flow.

yearjournalcountryeditionlanguage
2004-01-01Mechanics of Composite Materials
https://doi.org/10.1023/b:mocm.0000018466.35041.13