Tuning the physical properties of a nematic liquid crystal elastomer actuator |
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Authors: | Christopher M Spillmann Jawad Naciri Mu-San Chen Amritha Srinivasan Banahalli R Ratna |
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Institution: |
a Centre for Bio/Molecular Science and Engineering, Washington, DC 20375
b Geo-Centers, Inc., Arlington, VA 22203 |
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Abstract: | In this report we demonstrate the ability to tune the physical properties of a liquid crystal elastomer (LCE) by varying the amount and type of crosslinking within the elastomer network. LCE films composed of a single mesogenic compound were capable of uniaxial contraction when thermally actuated through the nematic to isotropic phase of the material. We probed the physical properties of the LCE films while varying the amount and concentration of two crosslinking agents and measured actuation strains of 10-35%, elastic moduli of 3-14 MPa, and transition temperatures ranging between 75 and 60°C. The viscous losses of the elastomers and the estimated work capable of being produced by the films were also evaluated. The ability to tune the physical properties of the LCE films allows for a wide range of applications including robotics, microelectromechanical systems (MEMS), shape-changing membranes, and/or microfluidics. |
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