A graph-encoded design framework produces 3D woven metamaterials with anisotropic stiffness tunable by over an order of magnitude and stretchability up to a factor of four, plus programmable failure.
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Double-network-inspired metamaterials integrate truss and woven components to achieve tenfold gains in stiffness and stretchability, with internal defects increasing energy dissipation threefold via delocalized failure.
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Design framework for programmable three-dimensional woven metamaterials
A graph-encoded design framework produces 3D woven metamaterials with anisotropic stiffness tunable by over an order of magnitude and stretchability up to a factor of four, plus programmable failure.
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Double-network-inspired mechanical metamaterials
Double-network-inspired metamaterials integrate truss and woven components to achieve tenfold gains in stiffness and stretchability, with internal defects increasing energy dissipation threefold via delocalized failure.