Optimization of fractal space frames under gentle compressive load

D. Rayneau-Kirkhope, Y. Mao, R. Farr

Physical Review E 87, 63204 (2013)

#fractals#mechanics#structure

LQ placeholderWe show that self-similar fractal structures exhibit new strength-to-mass scaling relations, offering unprecedented mechanical efficiency.

We show that self-similar fractal structures exhibit new strength-to-mass scaling relations, offering unprecedented mechanical efficiency.

The principle of hierarchical design is a prominent theme in many natural systems where mechanical efficiency is of importance. Here we establish the properties of a particular hierarchical structure, showing that high mechanical efficiency is found in certain loading regimes. We show that in the limit of gentle loading, the optimal hierarchical order increases without bound. We show that the scaling of material required for stability against loading to be withstood can be altered in a systematic, beneficial manner through manipulation of the number of structural length scales optimized upon. We establish the relationship between the Hausdorff dimension of the optimal structure and loading for which the structure is optimized. Practicalities of fabrication are discussed and examples of hierarchical frames of the same geometry constructed from solid beams are shown.

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Dirac cones in two-dimensional borane

M. Martinez-Canales, T. Galeev, A. Boldyrev, C. Pickard

Physical Review B

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Optimization of fractal space frames under gentle compressive load

D. Rayneau-Kirkhope, Y. Mao, R. Farr

Physical Review E

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Towers of strength

D. Rayneau-Kirkhope, Y. Mao, R. Farr

Physics World

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Ultralight fractal structures from hollow tubes

D. Rayneau-Kirkhope, Y. Mao, R. Farr

Physical Review Letters

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Hierarchical space frames for high mechanical efficiency: Fabrication and mechanical testing

D. Rayneau-Kirkhope, Y. Mao, R. Farr, J. Segal

Mechanics Research Communications

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