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Characterising the transformative shear response of cellular lattices when subject to topological reconfiguration

Sundararaman, Venkatesh; O'Donnell, Matt; Chenchiah, Isaac; Weaver, Paul

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Authors

Venkatesh Sundararaman

Matt O'Donnell

Isaac Chenchiah

Paul Weaver



Abstract

Demand for lightweight, adaptive and re-configurable structures is increasing in many fields such as space and robotics, encouraging designers to develop morphing lattice structures [1]. Changes in topology of lattice-like structures alters their effective mechanical properties by altering load paths through the making and breaking of connections between the members [2, 3]. Here we consider a planar sinusoidal lattice structure (fig. 1) that undergoes a topology transformation into a kagome-like system by forming new connections upon contact of adjacent unit cells under compressive loading. [4]. The topology change is associated with a step-change in the effective compressive and shear modulus of the lattice. Unlike traditional morphing systems that typically seek to transform structural geometry, the topology changes allow for large changes in elastic response thus increasing the design envelope for stiffness tailoring. To demonstrate this behaviour, we characterise the shear response of the sinusoidal lattice through the use of finite element analysis and proof-of-concept 3D printed demonstrators.

[1] Shan et al., “Multistable Architected Materials for Trapping Elastic Strain Energy”, Advanced Materials, 27, 4296-4301 (2015).
[2] Wagner et al., “Programmable, active lattice structures: Unifying stretch-dominated and bending-dominated topologies”, Extreme Mechanics Letters, 29, 100461 (2019).
[3] Carey et al., “Reconfigurable helical lattices via topological morphing”, Materials & Design, 206, 109768 (2021).
[4] Sundararaman et al., “Topology Morphing Lattice Structures”, Proceedings of SMASIS 2021, Virtual, Online, September 14-15, SMASIS2021-67531 (2021).

Citation

Sundararaman, V., O'Donnell, M., Chenchiah, I., & Weaver, P. (2022, July). Characterising the transformative shear response of cellular lattices when subject to topological reconfiguration. Paper presented at 11th European Solid Mechanics Conference, National University of Ireland Galway

Presentation Conference Type Conference Paper (unpublished)
Conference Name 11th European Solid Mechanics Conference
Conference Location National University of Ireland Galway
Start Date Jul 4, 2022
End Date Jul 8, 2022
Deposit Date Mar 24, 2022
Publicly Available Date Mar 29, 2024
Public URL https://uwe-repository.worktribe.com/output/9237695
Publisher URL https://www.esmc2022.org/

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