Bending crashworthiness of bionic thin-walled structures inspired by sugar cane stalks
Resumen
Abstract. Recently, the design of biologically inspired thin-walled structures has been
increasingly popular due to the successful adaptation of biological organisms to their
environments due to millions of years of evolution. Plants with high bending resistance to
counter the effect of wind forces on slender and tall stalks can be found in nature. To this end,
this paper investigates the bending crashworthiness of mechanical structures inspired by sugar
cane (Saccharum officinarum). The biological patterns of sugar cane were obtained with a
Scanning Electron Microscope, and five bionic thin-walled structures (BTWS) were considered.
In all cases, the structures were modeled with 6063-T5 aluminum and numerically evaluated
using the finite element method using a three-point bending test. The effects of cross-section
configuration on the crashworthiness performance of the structure were investigated. Our results
show a better version of the BTWSs relative to a typical circular profile. An increase in energy
absorption from 15.60% to 40.27% was computed. The best CFE performance was obtained for
a structure defined by a central octagon surrounded by smaller trapeziums. Such a structure is
therefore highly recommended for bending crashworthiness applications.
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