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Bilinear stiffness and bimodular Poisson’s ratio in cylindrical sinusoidal lattices through topology morphing

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posted on 2024-08-29, 11:40 authored by Venkatesh SundararamanVenkatesh Sundararaman, Matthew P. O’Donnell, Isaac V. Chenchiah, Paul M. WeaverPaul M. Weaver

Bilinear elastic behaviour allows structural designs to respond in either a stiff or compliant manner depending on the load. Here a cylindrical sinusoidal lattice structure is described that stiffens beyond a certain load. When subjected to axial compression, the lattice can undergo a topological transformation by forming contact connections. This topology change involves a transition from rectangular-like unit cells to kagome-like unit cells, associated with an approximately fourfold increase in stiffness. The lattice exhibits negative Poisson’s ratio with a step-change from ≈ −0.66 to ≈ −0.23 prior to and during contact formation, respectively. After contact formation, it displays a nonlinear Poisson’s ratio behaviour. The mechanics underpinning these behaviours are analysed using a combination of experiments and numerical modelling. A comparison with similar planar lattices reveals the effect of the global topology of the lattice (e.g. planar, cylindrical) on the unit cell-level topology morphing. The proposed topology-morphing cylindrical sinusoidal lattice introduces new design possibilities in the application-rich context of tubular structures with nonlinear mechanical properties.

Funding

Spatially and Temporally VARIable COMPosite Structures (VARICOMP)

Science Foundation Ireland

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Publication

Materials and Design, 2024, 242, 112980

Publisher

Elsevier

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  • Bernal Institute

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  • School of Engineering

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