Elasticity of diametrically compressed microfabricated woodpile lattices
Elasticity of diametrically compressed microfabricated woodpile lattices
Modulus-porosity relationships are invaluable to rational material design of porous and structured solids. When struts in a lattice are compressed diametrically, the mechanics is rather complex. Herein, the problem of modulus-porosity in the spirit of scaling arguments and analyses based on simple ansatz followed by variational minimization of the elastic potential energy is addressed. Using scaling arguments, a simple power law where the apparent modulus of elasticity scales quadratically with the volume fraction for diametrically compressed elastic lattices is obtained. The modulus-porosity relationship is found to be consistent with computations and laboratory experiments on additively manufactured woodpile lattices with various cross-sectional shapes and lattice spacing. It is also shown that the persistence length of diametrically pinched elastic rods is small, so that the effect of compressive strain from neighboring sites can be ignored. The decay behavior is surprisingly accurately captured by the variational approach and is consistent with computations. Finally, the range of validity of the quadratic power law presented here, up to relative density similar to 80%, is identified. On the apparent modulus-porosity plane, the experimental data aligns well with the power law for modulus-porosity predicted from simple analyses and finite element calculations.
Shalchy, Faezeh
521d45a4-74ae-4135-a4ba-0f0554a89c2e
Bhaskar, Atul
d4122e7c-5bf3-415f-9846-5b0fed645f3e
Shalchy, Faezeh
521d45a4-74ae-4135-a4ba-0f0554a89c2e
Bhaskar, Atul
d4122e7c-5bf3-415f-9846-5b0fed645f3e
Shalchy, Faezeh and Bhaskar, Atul
(2024)
Elasticity of diametrically compressed microfabricated woodpile lattices.
Advanced Engineering Materials, [2301158].
(doi:10.1002/adem.202301158).
Abstract
Modulus-porosity relationships are invaluable to rational material design of porous and structured solids. When struts in a lattice are compressed diametrically, the mechanics is rather complex. Herein, the problem of modulus-porosity in the spirit of scaling arguments and analyses based on simple ansatz followed by variational minimization of the elastic potential energy is addressed. Using scaling arguments, a simple power law where the apparent modulus of elasticity scales quadratically with the volume fraction for diametrically compressed elastic lattices is obtained. The modulus-porosity relationship is found to be consistent with computations and laboratory experiments on additively manufactured woodpile lattices with various cross-sectional shapes and lattice spacing. It is also shown that the persistence length of diametrically pinched elastic rods is small, so that the effect of compressive strain from neighboring sites can be ignored. The decay behavior is surprisingly accurately captured by the variational approach and is consistent with computations. Finally, the range of validity of the quadratic power law presented here, up to relative density similar to 80%, is identified. On the apparent modulus-porosity plane, the experimental data aligns well with the power law for modulus-porosity predicted from simple analyses and finite element calculations.
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Adv Eng Mater - 2024 - Shalchy - Elasticity of Diametrically Compressed Microfabricated Woodpile Lattices
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e-pub ahead of print date: 14 March 2024
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Local EPrints ID: 501226
URI: http://eprints.soton.ac.uk/id/eprint/501226
ISSN: 1438-1656
PURE UUID: f20c5dc2-f5b8-47ce-b380-85586f17d219
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Date deposited: 27 May 2025 17:56
Last modified: 21 Aug 2025 04:54
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Author:
Faezeh Shalchy
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