Liquid Crystal Elastomers

A. E. H. Chehade, B. Shen, C. M. Yakacki, T. D. Nguyen, S. Govindjee, “Finite element modeling of viscoelastic liquid crystal elastomers”, International Journal for Numerical Methods and Engineering, 125:e7510, DOI:doi.org/10.1002/nme.7510

A. E. H. Chehade, B. Shen, C. M. Yakacki, T. D. Nguyen, S. Govindjee (2024) “Finite element modeling of viscoelastic liquid crystal elastomers”, International Journal for Numerical Methods and Engineering, 125:e7510, DOI:doi.org/10.1002/nme.7510 [Link]

S.-Y. Jeon, B. Shen, N. A. Traugutt, Z. Zhu, L. Fang, X. M Yakacki, T. D Nguyen, S. H. Kang (2022) “Synergistic Energy Absorption Mechanisms of Architected Liquid Crystal Elastomers”, Advanced Materials, 34:2200272.[Link]

S.-Y. Jeon, B. Shen, N. A. Traugutt, Z. Zhu, L. Fang, X. M Yakacki, T. D Nguyen, S. H. Kang (2022) “Synergistic Energy Absorption Mechanisms of Architected Liquid Crystal Elastomers”, Advanced Materials, 34:2200272, DOI:10.1002/adma.202200272.[Link]

C. P. Martin Linares, N. A. Traugutt, M. Saed, A. Martin Linares, C. M. Yakacki, T. D. Nguyen (2020), “The effect of alignment on the rate-dependent behavior of a main-chain liquid crystal elastomers”, Soft Matter, 16:8782-8798. [Link]

C. P. Martin Linares, N. A. Traugutt, M. Saed, A. Martin Linares, C. M. Yakacki, T. D. Nguyen (2020), “The effect of alignment on the rate-dependent behavior of a main-chain liquid crystal elastomers”, Soft Matter, 16:8782-8798. [Link]