Development and modeling of multi-phase polymeric origami inspired architecture by using pre-molded geometrical features

Kshad Mohamed Ali E.; Naguib Hani E.

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Development and modeling of multi-phase polymeric origami inspired architecture by using pre-molded geometrical features

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Using Origami folded cores in sandwich structures for lightweight applications has attracted attention in different engineering applications, especially in the applications where the stiffness to weight ratio is a critical design parameter. Recently, common sandwich cores such as honeycomb and foamed cores have been replaced with origami core panels due to their way of force redistribution and energy absorption; these unique characteristics give origami cores high stiffness to weight ratio and high bending and twisting resistance. This paper presents the results of experimental investigations of the effect of base material on the mechanical properties and the impact resistance of Miura-Origami sandwich cores; then, the experimental results are compared with FEA simulation results. The materials used in the study for the origami cores were polymer blends composed of polylactic acid (PLA) and thermoplastic polyurethane (TPU). PLA/TPU blend compositions are (100/0, 80/20, 65/35, 50/50, 20/80, and 0/100) as a weight percentage. The geometrical parameters of the unit cell, base material thickness, and the panel thickness were considered to be constants in this study. The study shows the behavior of the origami cores under impact test and the energy absorbed by the origami folded cores. It was found that 20/80 PLA/TPU blend demonstrated the highest specific energy absorption efficiency both in quasi-static compression and impact tests. Fractured Origami structures were observed to fail at folded edges (creases lines), while the facets exhibit rigid body rotations. The FEM simulation showed a consistency in the impact behavior of the origami cores, and the directional deformational of origami core units which explain the ability of the structure to redistribute the applied force and absorb energy. In this work the origami folded core features were molded directly from the blended material.

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《Smart Materials & Structures》 |2017年第2期|共10页
作者
Kshad Mohamed Ali E.; Naguib Hani E.;
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作者单位

Univ Toronto, Dept Mech & Ind Engn, Toronto, ON M5S 1A1, Canada;

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原文格式 PDF
正文语种英语
中图分类智能材料;
关键词
origami; sandwich; cores; polymers; compression; impact; modeling;

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Development and modeling of multi-phase polymeric origami inspired architecture by using pre-molded geometrical features

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