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Polydomains in liquid-crystal elastomers

✍ Scribed by Alexandra ten Bosch; Lionel Varichon

Book ID
102495899
Publisher
John Wiley and Sons
Year
1994
Tongue
English
Weight
412 KB
Volume
3
Category
Article
ISSN
1022-1344

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✦ Synopsis

Abstract

In liquid‐crystal elastomers, the simultaneous presence of rubber elasticity due to the crosslinked backbone chains and of optical birefringence due to the mesogens in the side chains lead to exceptional physical properties. An elastic deformation of the network influences the order of the mesogens and, therefore, the optical properties. A theory based on a Landau‐de Gennes expansion of the free energy is proposed. In the opaque polydomain phase, the local orientation is given by a compromise between the external mechanical field and a local anchoring interaction. As the field is increased, it becomes energetically favorable for the mesogens to align parallel to the mechanical field, and a transition to a transparent monodomain structure occurs. Results for the average orientation, the stress and the chain conformation are given.

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