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A platform for research: civil engineering, architecture and urbanism
Quasi-static axial crushing of thin-walled tubes with a kite-shape rigid origami pattern: Numerical simulation
Abstract This paper presents a novel thin-walled tube design with a pre-folded kite-shape rigid origami pattern as an energy absorption device. Numerical simulation of the quasi-static axial crushing of the new device shows that a smooth and high reaction force curve can be achieved in comparison with those of conventional square tubes, with an increase of 29.2% in specific energy absorption and a reduction of 56.5% in initial peak force being obtained in the optimum case. A theoretical study of the energy absorption of the new device has also been conducted, which matches reasonably well with the numerical results.
Highlights A kite-shape rigid origami pattern is used to design a new thin-walled tube. Two collapse modes are induced in the new origami tube by varying pattern geometry. Reduction in peak force by over 50% is constantly achieved compared to square tubes. Increase in specific energy absorption by 29.2% is obtained in the optimum design.
Quasi-static axial crushing of thin-walled tubes with a kite-shape rigid origami pattern: Numerical simulation
Abstract This paper presents a novel thin-walled tube design with a pre-folded kite-shape rigid origami pattern as an energy absorption device. Numerical simulation of the quasi-static axial crushing of the new device shows that a smooth and high reaction force curve can be achieved in comparison with those of conventional square tubes, with an increase of 29.2% in specific energy absorption and a reduction of 56.5% in initial peak force being obtained in the optimum case. A theoretical study of the energy absorption of the new device has also been conducted, which matches reasonably well with the numerical results.
Highlights A kite-shape rigid origami pattern is used to design a new thin-walled tube. Two collapse modes are induced in the new origami tube by varying pattern geometry. Reduction in peak force by over 50% is constantly achieved compared to square tubes. Increase in specific energy absorption by 29.2% is obtained in the optimum design.
Quasi-static axial crushing of thin-walled tubes with a kite-shape rigid origami pattern: Numerical simulation
Ma, Jiayao (author) / Hou, Degao (author) / Chen, Yan (author) / You, Zhong (author)
Thin-Walled Structures ; 100 ; 38-47
2015-11-23
10 pages
Article (Journal)
Electronic Resource
English
Axial crushing of thin-walled structures with origami patterns
| Elsevier | 2012
Axial crushing of thin-walled structures with origami patterns
| Online Contents | 2012
| British Library Online Contents | 2006