Energy absorption assessment of recovered shapes in 3D-printed star hourglass honeycombs: Experimental and numerical approaches

Author:

Farrokhabadi AminORCID,Lu Houyu,Yang XinORCID,Rauf AliORCID,Talemi Reza,Hossein Behravesh Amir,Kaveh Hedayati Seyyed,Chronopoulos Dimitrios

Funder

European Commission

Publisher

Elsevier BV

Reference48 articles.

1. Composite curved hourglass cellular structures: Design optimization for stiffness response and crashworthiness performance;Farrokhabadi;Compos Struct,2024

2. Parametric study of the energy absorption capacity of 3D-printed continuous glass fiber reinforced polymer cruciform honeycomb structure;Gharehbaghi;Steel Compos Struct,2023

3. Energy absorption of thin walled tube filled with gradient auxetic structures-theory and simulation;Gao;Int J Mech Sci,2020

4. Shear modulus of conventional and auxetic open-cell foam;Novak;Mech Mater,2021

5. The fracture toughness of composite laminates with a negative Poisson’s ratio;Donoghue;Phys Status Solidi Basic Res,2009

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