Elastic Characterization of Acrylate-Based Liquid Crystal Elastomers
Gevorg S. Gevorgyan, Maksim L. Sargsyan, Mariam R. Hakobyan, Matthew Reynolds, Helen F. Gleeson, Rafik S. Hakobyan

TL;DR
This paper studies the elastic properties of acrylate-based liquid crystal elastomers, revealing their unique mechanical behavior and confirming theoretical predictions.
Contribution
The study provides the first full elastic characterization of acrylate-based LCEs, determining five elasticity coefficients and confirming their auxetic behavior.
Findings
Measured Young’s moduli are on the order of MPa with an anisotropy ratio of ~4.5.
Longitudinal Poisson ratios are close to 0.5, indicating a uniaxial elastic response at low strains.
Findings align with theoretical predictions, confirming the material's auxetic behavior above a strain threshold of ~0.4.
Abstract
Liquid crystal elastomers (LCEs) are innovative materials best known for their reversible shape and optical property changes in response to external stimuli such as heat, light, and mechanical forces. These unique features position them as promising candidates for applications in emerging technologies. The determination of the mechanical properties of these materials is important for the study of the interaction between orientational and mechanical deformations of LCEs. Importantly, thoroughly characterizing the mechanical and elastic properties of LCEs is essential for their efficient design and integration into various devices. In this study, a full elastic characterization of promising acrylate-based LCE materials that are auxetic above a material-dependent strain threshold (~0.4 for the material studied here) was carried out. Highly aligned macroscopic samples were fabricated,…
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Taxonomy
TopicsAdvanced Materials and Mechanics · Liquid Crystal Research Advancements · Structural Analysis and Optimization
