Andreas Greve scite author profile

We examine the robustness of order in nematic elastomers under mechanical strains imposed along and perpendicularly to the director when director rotation is prohibited. In contrast to electric and magnetic fields applied to conventional nematics, mechanical fields are shown theoretically and experimentally to greatly affect the degree of nematic order and related quantities. Unlike in liquid nematics, one can impose fields perpendicular to the director, thereby inducing biaxial order which should be susceptible to experimental detection. Nematic elastomers with unchanging director and degree of order should theoretically have the same elastic moduli for longitudinal and transverse extensions. This is violated when nematic order is permitted to relax in response to strains. Near the transition we predict the longitudinal modulus to be smaller than the transverse modulus; at lower temperatures the converse is true, with a crossover a few degrees below the transition. The differences are ascribed to the different temperature dependence of the stiffness of uniaxial and biaxial order. We synthesised side chain single-crystal nematic polymer networks, performed DSC, X-ray, birefringence, and thermo-mechanical characterisations, and then obtained linear moduli from stress-strain measurements. PACS. 61.30.-v Liquid crystals -82.70.-y Disperse systems; complex fluids -81.40.Jj Elasticity and anelasticity, stress-strain relations.

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Nematic Elastomers: The Dependence of Phase Transformation and Orientation Processes on Crosslinking Topology

Greve

Finkelmann

2001

Macromol. Chem. Phys.

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Influence of a Mechanical Field on the Liquid Crystalline to Isotropic Phase Transformation

Aβfalg

Greve

Finkelmann

1999

Molecular Crystals and Liquid Crystals Science and Technology.

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Andreas Greve

The elastic anisotropy of nematic elastomers

Nematic Elastomers: The Dependence of Phase Transformation and Orientation Processes on Crosslinking Topology

Influence of a Mechanical Field on the Liquid Crystalline to Isotropic Phase Transformation

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