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Multiphysics modelling of light-actuated liquid crystal elastomers

Roberto Brighenti, Mattia Pancrazio Cosma

2023Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences21 citationsDOIOpen Access PDF

Abstract

Liquid crystalline elastomers (LCEs) represent a promising class of responsive polymers whose physical properties are peculiar to both fluids and solids. Thanks to their microscale structure made of elongated rigid molecules (mesogens)—characterized by their capability to reversibly switch from an isotropic to an ordered state—LCEs exhibit a number of remarkable physical effects, such as self-deformation and mechanical actuation triggered by external stimuli. Efficient and physics-based modelling, aimed at designing and optimizing LCE-based devices (such as artificial muscles, deployable structures, soft actuators, etc.), is a fundamental tool to quantitatively describe their mechanical behaviour in real applications. In the present study, we illustrate the multi-physics modelling of light-driven deformation of LCEs, based on the photo-thermal energy conversion. The role played by the light diffusion and heat transfer within the medium is considered and their effect on the obtainable actuation is studied through numerical simulations based on the multi-physics theory developed.

Topics & Concepts

MultiphysicsMicroscale chemistryElastomerIsotropyActuatorLiquid crystalMaterials scienceDeformation (meteorology)Soft matterMechanical energyThermalNanotechnologyMechanical engineeringChemical physicsPhysicsComputer scienceComposite materialFinite element methodOpticsOptoelectronicsThermodynamicsEngineeringChemical engineeringPower (physics)MathematicsArtificial intelligenceMathematics educationColloidAdvanced Materials and MechanicsPolymer composites and self-healingAdvanced Sensor and Energy Harvesting Materials
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