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Discovery of quasi-disordered truss metamaterials inspired by natural cellular materials

Akash Singh Bhuwal, Yong Pang, Ian Ashcroft, Wei Sun, Tao Liu

2023Journal of the Mechanics and Physics of Solids46 citationsDOIOpen Access PDF

Abstract

Natural cellular materials, such as marine mussels, honeycombs, woods, trabecular bones, plant parenchyma, sponges and protoreaster nodosus, may benefit from the disorderliness within their internal microstructures to achieve damage tolerant behaviors. Inspired by this, we have created quasi-disordered truss metamaterials (QTMs) via introducing spatial coordinate perturbations or strut thickness variations to the perfect, periodic truss lattices. Numerical studies have suggested that the QTMs can exhibit either ductile, damage tolerant behaviors or sudden, catastrophic failure mode, depending on the distribution of the introduced disorderliness. A data-driven approach has been developed, combining deep-learning and global optimization algorithms, to tune the distribution of the disorderliness to achieve the damage tolerant QTM designs. A case study on the QTMs created from a periodic Face Centered Cubic (FCC) lattice has demonstrated that the optimized QTMs can achieve up to 100% increase in ductility at the expense of less than 5% stiffness and 8%–15% tensile strength. Our results suggest a novel design pathway for architected materials to improve damage tolerance.

Topics & Concepts

TrussMetamaterialStiffnessStructural engineeringMaterials scienceUltimate tensile strengthMicrostructureDuctility (Earth science)Computer scienceComposite materialTopology (electrical circuits)EngineeringElectrical engineeringOptoelectronicsCreepCellular and Composite StructuresAdvanced Materials and MechanicsAcoustic Wave Phenomena Research
Discovery of quasi-disordered truss metamaterials inspired by natural cellular materials | Litcius