Satyajit Das scite author profile

Ceramics have some of the highest strength- and stiffness-to-weight ratios of any material but are suboptimal for use as structural materials because of their brittleness and sensitivity to flaws. We demonstrate the creation of structural metamaterials composed of nanoscale ceramics that are simultaneously ultralight, strong, and energy-absorbing and can recover their original shape after compressions in excess of 50% strain. Hollow-tube alumina nanolattices were fabricated using two-photon lithography, atomic layer deposition, and oxygen plasma etching. Structures were made with wall thicknesses of 5 to 60 nanometers and densities of 6.3 to 258 kilograms per cubic meter. Compression experiments revealed that optimizing the wall thickness-to-radius ratio of the tubes can suppress brittle fracture in the constituent solid in favor of elastic shell buckling, resulting in ductile-like deformation and recoverability.

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Compressive response of a 3D non-woven carbon-fibre composite

Das

Kandasamy

Kazemahvazi

et al. 2018

International Journal of Solids and Structures

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Penetration of confined ceramics targets

Das

Ronan

Wadley

et al. 2018

Extreme Mechanics Letters

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Feasibility study of utilisation of ferrochrome slag as fine aggregate and rice husk ash as cement replacement for developing sustainable concrete

Das

Patra

Mukharjee

2021

Innov. Infrastruct. Solut.

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Indentation response of a 3D non-woven carbon-fibre composite

et al. 2018

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Satyajit Das

Strong, lightweight, and recoverable three-dimensional ceramic nanolattices

Compressive response of a 3D non-woven carbon-fibre composite

Penetration of confined ceramics targets

Feasibility study of utilisation of ferrochrome slag as fine aggregate and rice husk ash as cement replacement for developing sustainable concrete

Indentation response of a 3D non-woven carbon-fibre composite

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