This work illustrates the manufacturing of the honeycomb hexagonal topology structures by the kirigami technical, and the compressive testing of this specimen. The cellular configuration is simulated using a series of finite element models representing fullscale. The models are benchmarked against experimental results from pure compression tests. Finite element models of the honeycomb assemblies under compressive loading have been developed using nonlinear shell elements from an ANSYS code. Good agreement is observed between numerical nonlinear simulations and the experimental results.
Growing Science » Authors » Brahim Issasfa
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Finite element analysis of out-of-plane compressive properties of a honeycomb structures with hexagonal topology fabricated by the kirigami technique Pages 153-158
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Authors: Belloufi Abderrahim, Mustapha Bouakba, Mourad Boukhatem, Brahim Issasfa
Keywords: Cellular, FEA, Flatwise, Hexagonal topology, Honeycombs
Abstract:
Journal: ESM | Year: 2016 | Volume: 4 | Issue: 3 | Views: 2292 | Reviews: 0