A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Axial crushing of novel hierarchical multi-cell square tubes
Highlights Multi-cell square tubes with novel hierarchical topologies were developed. The initial peak forces of developed tubes are less than that of the single square tube with the same mass. The specific energy absorption of a proposed tube is 2.7 times that of the single square tube with the same mass. Theoretically predicted mean crushing forces match well with the simulated ones for the two hierarchical tubes proposed.
Abstract Inspired by the concept of hierarchy, two types of hierarchical multi-cell square tubes (HMSA and HMSB) are proposed. The crashworthiness of HMSA and HMSB tubes with various wall thicknesses and hierarchical orders is numerically studied. It has been found that the peak crushing force of HMSA and HMSB tubes is smaller than that of single square tubes, which is preferred to minimize the possible injury or damage caused by the initial peak force. Moreover, the mean crushing force, energy absorption, crushing force efficiency and specific energy absorption of HMSA and HMSB tubes increase with the hierarchical order and wall thickness. Compared with single square tubes, the specific energy absorption of the 3rd order HMSA and HMSB tubes increases by more than 1.5 and 1.7 times, respectively. Moreover, the 3rd order HMSB tubes show slightly greater specific energy absorption than that of the 3rd order HMSA tubes. In addition, theoretical models are developed which can well predict the mean crushing force of two new types of tubes.
Axial crushing of novel hierarchical multi-cell square tubes
Highlights Multi-cell square tubes with novel hierarchical topologies were developed. The initial peak forces of developed tubes are less than that of the single square tube with the same mass. The specific energy absorption of a proposed tube is 2.7 times that of the single square tube with the same mass. Theoretically predicted mean crushing forces match well with the simulated ones for the two hierarchical tubes proposed.
Abstract Inspired by the concept of hierarchy, two types of hierarchical multi-cell square tubes (HMSA and HMSB) are proposed. The crashworthiness of HMSA and HMSB tubes with various wall thicknesses and hierarchical orders is numerically studied. It has been found that the peak crushing force of HMSA and HMSB tubes is smaller than that of single square tubes, which is preferred to minimize the possible injury or damage caused by the initial peak force. Moreover, the mean crushing force, energy absorption, crushing force efficiency and specific energy absorption of HMSA and HMSB tubes increase with the hierarchical order and wall thickness. Compared with single square tubes, the specific energy absorption of the 3rd order HMSA and HMSB tubes increases by more than 1.5 and 1.7 times, respectively. Moreover, the 3rd order HMSB tubes show slightly greater specific energy absorption than that of the 3rd order HMSA tubes. In addition, theoretical models are developed which can well predict the mean crushing force of two new types of tubes.
Axial crushing of novel hierarchical multi-cell square tubes
Gao, Zhipeng (author) / Ruan, Dong (author)
Engineering Structures ; 286
2023-04-09
Article (Journal)
Electronic Resource
English
Mathematical Model for Axial Crushing of Hybrid Square Tubes
| British Library Online Contents | 2011
Axial crushing and optimal design of square tubes with graded thickness
| Elsevier | 2014
Axial crushing and optimal design of square tubes with graded thickness
| Online Contents | 2014
Axial Crushing Strength of Round Tubes
| British Library Conference Proceedings | 1997
Axial crushing behaviour of honeycomb-filled square carbon fibre reinforced plastic (CFRP) tubes
| British Library Online Contents | 2016