Coupling between mesogenic units and polymer backbone in side-chain liquid crystal polymers and elastomers

Mitchell, G.R., Davis, F.J. ORCID: https://orcid.org/0000-0003-0462-872X, Guo, W. and Cywinski, R. (1991) Coupling between mesogenic units and polymer backbone in side-chain liquid crystal polymers and elastomers. Polymer, 32 (8). pp. 1347-1353. ISSN 0032-3861 doi: 10.1016/0032-3861(91)90412-C

Abstract/Summary

The levels of alignment of the mesogenic units and of the polymer backbone trajectory for polyacrylate based nematic side-chain liquid crystal polymers and elastomers were evaluated by using wide angle X-ray and small angle neutron scattering procedures. The X-ray scattering measurements show that substantial levels of preferred orientation of the mesogenic units may be introduced through magnetic fields for uncrosslinked polymers and through mechanical extension for liquid crystal elastomers. Small angle neutron scattering measurements show that for highly aligned samples an anisotropic polymer backbone trajectory is observed in which the envelope is slightly extended by ∼ 10% in the direction parallel to the axis of alignment of the mesogenic units. The sense of this coupling differs from that recorded for other uncrosslinked side-chain liquid crystal polymers. Possible mechanisms to account for this anisotropy and its relationship to the properties of liquid crystal elastomers are discussed. The observed deformation behaviour of the liquid crystal elastomer is non-affine and this appears to confirm the dominating influence of the liquid crystal order of the side chains on the mechanical properties of these novel networks.