English

Fractal space frames and metamaterials for high mechanical efficiency

Materials Science 2010-02-25 v2 Soft Condensed Matter

Abstract

A solid slender beam of length LL, made from a material of Young's modulus YY and subject to a gentle compressive force FF, requires a volume of material proportional to L3f1/2L^{3}f^{1/2} [where fF/(YL2)1f\equiv F/(YL^{2})\ll 1] in order to be stable against Euler buckling. By constructing a hierarchical space frame, we are able to systematically change the scaling of required material with ff so that it is proportional to L3f(G+1)/(G+2)L^{3}f^{(G+1)/(G+2)}, through changing the number of hierarchical levels GG present in the structure. Based on simple choices for the geometry of the space frames, we provide expressions specifying in detail the optimal structures (in this class) for different values of the loading parameter ff. These structures may then be used to create effective materials which are elastically isotropic and have the combination of low density and high crush strength. Such a material could be used to make light-weight components of arbitrary shape.

Keywords

Cite

@article{arxiv.1001.3940,
  title  = {Fractal space frames and metamaterials for high mechanical efficiency},
  author = {R. S. Farr and Y. Mao},
  journal= {arXiv preprint arXiv:1001.3940},
  year   = {2010}
}

Comments

6 pages, 4 figures

R2 v1 2026-06-21T14:37:55.694Z