0000000000248294

AUTHOR

U. Dietrich

showing 2 related works from this author

Structure and elastic properties of smectic liquid crystalline elastomer films

2001

Mechanical measurements, x-ray investigations, and optical microscopy are employed to characterize the interplay of chemical composition, network topology, and elastic response of smectic liquid crystalline elastomers (LCEs) in various mesophases. Macroscopically ordered elastomer films of submicrometer thicknesses were prepared by cross linking freely suspended smectic polymer films. The cross-linked material preserves the mesomorphism and phase transitions of the precursor polymer. The elastic response of the smectic LCE is entropic, and the corresponding elastic moduli are of the order of MPa. In the tilted ferroelectric smectic-C* phase, the network structure plays an important role. Du…

chemistry.chemical_classificationPhase transitionMaterials scienceMesogenPolymerElastomerFerroelectricitylaw.inventionCondensed Matter::Soft Condensed MatterCondensed Matter::Materials SciencechemistryOptical microscopelawPhase (matter)Composite materialElastic modulusPhysical Review E
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Free-standing smectic LC elastomer films

2001

ABSTRACTWe probe the mesophase transitions and layer structures in thin ordered smectic liquid crystalline elastomer films by means of x-ray diffraction and optical microscopy. Oriented elastomer films of submicrometer thickness are produced by crosslinking freely suspended smectic polymer films. After crosslinking, the mesomorphism is similar to that of the precursor polymer. Smectic layers align parallel to the film plane. The layer spacing increases with temperature in the SmC* phase while it decays above the SmC*-SmA transition.

chemistry.chemical_classificationDiffractionMaterials scienceFilm planeMesophasePolymerElastomerlaw.inventionchemistryOptical microscopelawPhase (matter)Composite materialLayer (electronics)
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