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arxiv: 2006.02848 · v1 · pith:J2YF7KKRnew · submitted 2020-04-16 · ⚛️ physics.app-ph

Mechanical Properties of Diamond Schwarzites: From Molecular Dynamics Simulations to 3D Printing

classification ⚛️ physics.app-ph
keywords mechanicalschwarziteswered-printeddiamondmodelspropertiessimulations
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Schwarzites are porous crystalline structures with Gaussian negative curvature. In this work, we investigated the mechanical behavior and energy absorption properties of two carbon-based diamond schwarzites (D688 and D8bal). We carried out fully atomistic molecular dynamics (MD) simulations. The optimized MD atomic models were used to generate macro-scale models for 3D-printing (PolyLactic Acid (PLA) polymer filaments) through Fused Deposition Modelling (FDM). Mechanical properties under uniaxial compression were investigated for both the atomic models and the 3D-printed ones. Mechanical testings were performed on the 3D-printed schwarzites where the deformation mechanisms were found to be similar to those observed in MD simulations. These results are suggestive of a scale-independent mechanical behavior that is dominated by structural topology. The structures exhibit high specific energy absorption and crush force efficiency ~0.8, which suggest that the 3D-printed diamond schwarzites are good candidates as energy-absorbing materials.

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