A platform for research: civil engineering, architecture and urbanism
Bioinspired Structural Composite Flexible Material with High Cushion Performance
Impacts occur everywhere, and they pose a serious threat to human health and production safety. Flexible materials with efficient cushioning and energy absorption are ideal candidates to provide protection from impacts. Despite the high demand, the cushioning capacity of protective materials is still limited. In this study, an integrated bionic strategy is proposed, and a bioinspired structural composite material with highly cushioning performance is developed on the basis of this strategy. The results demonstrated that the integrated bionic material, an S‐spider web‐foam, has excellent energy storage and dissipation as well as cushioning performance. Under impact loading, S‐spider web‐foam can reduce peak impact forces by a factor of 3.5 times better than silicone foam, achieving unprecedented cushioning performance. The results of this study deepen the understanding of flexible cushioning materials and may provide new strategies and inspiration for the preparation of high‐performance flexible cushioning materials.
Bioinspired Structural Composite Flexible Material with High Cushion Performance
Impacts occur everywhere, and they pose a serious threat to human health and production safety. Flexible materials with efficient cushioning and energy absorption are ideal candidates to provide protection from impacts. Despite the high demand, the cushioning capacity of protective materials is still limited. In this study, an integrated bionic strategy is proposed, and a bioinspired structural composite material with highly cushioning performance is developed on the basis of this strategy. The results demonstrated that the integrated bionic material, an S‐spider web‐foam, has excellent energy storage and dissipation as well as cushioning performance. Under impact loading, S‐spider web‐foam can reduce peak impact forces by a factor of 3.5 times better than silicone foam, achieving unprecedented cushioning performance. The results of this study deepen the understanding of flexible cushioning materials and may provide new strategies and inspiration for the preparation of high‐performance flexible cushioning materials.
Bioinspired Structural Composite Flexible Material with High Cushion Performance
Zhuang, Zhiqiang (author) / Qian, Zhihui (author) / Wang, Xu (author) / Xu, Xiaolin (author) / Chen, Boya (author) / Song, Guangsheng (author) / Liu, Xiangyu (author) / Ren, Lei (author) / Ren, Luquan (author)
Advanced Science ; 11
2024-02-01
12 pages
Article (Journal)
Electronic Resource
English
Bioinspired Structural Composite Flexible Material with High Cushion Performance
Wiley | 2024
|Performance of rigid-flexible-pile foundation with cushion
British Library Online Contents | 2010
|High-performance paving cushion material and preparation method thereof
European Patent Office | 2023
|Effect of Flexible Pile on Rigid Flexible Pile Composite Foundation with Geogrid Reinforced Cushion
Trans Tech Publications | 2014
|