Energy Absorption Performance of Bio-inspired Honeycombs: Numerical and Theoretical Analysis

John Sherman, Wen Zhang, Jun Xu
2021 Acta Mechanica Solida Sinica  
AbstractEnergy absorption performance has been a long-pursued research topic in designing desired materials and structures subject to external dynamic loading. Inspired by natural bio-structures, herein, we develop both numerical and theoretical models to analyze the energy absorption behaviors of Weaire, Floret, and Kagome-shaped thin-walled structures. We demonstrate that these bio-inspired structures possess superior energy absorption capabilities compared to the traditional thin-walled
more » ... tures, with the specific energy absorption about 44% higher than the traditional honeycomb. The developed mechanical model captures the fundamental characteristics of the bio-inspired honeycomb, and the mean crushing force in all three structures is accurately predicted. Results indicate that although the basic energy absorption and deformation mode remain the same, varied geometry design and the corresponding material distribution can further boost the energy absorption of the structure, providing a much broader design space for the next-generation impact energy absorption structures and systems.
doi:10.1007/s10338-021-00262-8 fatcat:ti3455kflncvvgur6e7s332rn4