Tuning the Nonlinear Mechanical Anisotropy of Layered Crystals via Interlayer Twist

EL Gao and XZ Jia and LQ Shui and Z Liu, JOURNAL OF APPLIED MECHANICS- TRANSACTIONS OF THE ASME, 88, 011007 (2021).

DOI: 10.1115/1.4048647

Multilayer graphene exhibits strong mechanical anisotropy in the nonlinear elastic regime, and tuning this mechanical anisotropy without damaging the graphene is a tough challenge. In this work, we propose an efficient strategy to tune the mechanical anisotropy of multilayer graphene via interlayer twist. The orientation-dependent strain-stress curve of monolayer graphene is described in analytical form, which is further generalized for predicting the mechanical anisotropy of twisted multilayer graphene by introducing a twist-induced "phase shift." These predictions are supported by atomistic simulations. It is found that the strong nonlinear mechanical anisotropy of multilayer graphene can be effectively tuned and even eliminated via the twist-induced phase shift. These findings are finally generalized for other layered crystals.

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