Energy Absorption of Origami Crash Box: Numerical Simulation and Theoretical Analysis

Abstract: Thin-walled tubes as energy absorption devices are widely in use for their low cost and high manufacturability. Employing origami technique on a tube enables induction of a predetermined failure mode so as to improve its energy absorption efficiency. Here we study the energy absorption of a hexagonal tubular device named the origami crash box numerically and theoretically. Numerical simulations of the quasi-static axial crushing show that the pattern triggers a diamond-shaped mode, leading to a substantial inc… Show more

“…Many efforts have been thus taken to reduce the initial peak force while keeping or increasing the absorbed energy, ranging from introducing dents and grooves (Mamalis et al, 1986;Yang et al, 2017), corrugations (Singace and El-Sobky, 1997;Wu et al, 2016) into square and circular tubes. Lately, researchers have found that the introduction of origami patterns into thin-wall structures can trigger specific failure modes, which in turn change the structural responses and characteristics.…”

Quasi-static axial crushing of hexagonal origami crash boxes as energy absorption devices

“…Many efforts have been thus taken to reduce the initial peak force while keeping or increasing the absorbed energy, ranging from introducing dents and grooves (Mamalis et al, 1986;Yang et al, 2017), corrugations (Singace and El-Sobky, 1997;Wu et al, 2016) into square and circular tubes. Lately, researchers have found that the introduction of origami patterns into thin-wall structures can trigger specific failure modes, which in turn change the structural responses and characteristics.…”

Quasi-static axial crushing of hexagonal origami crash boxes as energy absorption devices

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