Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components
In order to study the quasi-static axial crushing performance of BFRP-bamboo winding composite hollow components, considering the cloth ratio of BFRP (0%~14.68%) the number of BFRP layers (0 layer~4 layers) as an influencing factor, 20 tube specimens were designed for quasi-static compression tests....
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Sustainable Development Press Limited
2024-09-01
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| Series: | Sustainable Structures |
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| author | Haitao Li Wenjing Zhou Bingyu Jian Xinqi Shen Rodolfo Lorenzo Mahmud Ashraf |
| author_facet | Haitao Li Wenjing Zhou Bingyu Jian Xinqi Shen Rodolfo Lorenzo Mahmud Ashraf |
| author_sort | Haitao Li |
| collection | DOAJ |
| description | In order to study the quasi-static axial crushing performance of BFRP-bamboo winding composite hollow components, considering the cloth ratio of BFRP (0%~14.68%) the number of BFRP layers (0 layer~4 layers) as an influencing factor, 20 tube specimens were designed for quasi-static compression tests. In this paper, the failure modes of the specimens under quasi-static axial compressive load are presented with the relevant load-displacement curves. The deformation types were carefully studied to evaluate the compressive crushing indicators of the specimens. The test results showed that when the cloth ratio of BFRP increased from 0 to 14.68%, the specific energy absorption (SEA), the mean crushing force (MCF) and the crushing load efficiency (CFE) increased to some extent, whilst the initial peak crushing force (PCF) did not show any trend. When compared with those of the bamboo winding hollow components (BT), the SEA, MCF and CFE of BFRP-bamboo winding composite hollow components with four layers of BFRP winding outside of BT (BBT4) increased by 87.53%, 194.37% and 255.59% respectively. Compared with other composite hollow components such as composite wrapped hollow components (CWT) and carbon reinforced composite hollow components (CRCT), BFRP-bamboo winding composite hollow components (BBT) showed superior crushing resistance while offering the advantages of light weight. |
| format | Article |
| id | doaj-art-230f0e754e824876a5395bb89086cfcb |
| institution | Kabale University |
| issn | 2789-3111 2789-312X |
| language | English |
| publishDate | 2024-09-01 |
| publisher | Sustainable Development Press Limited |
| record_format | Article |
| series | Sustainable Structures |
| spelling | doaj-art-230f0e754e824876a5395bb89086cfcb2025-02-01T08:53:27ZengSustainable Development Press LimitedSustainable Structures2789-31112789-312X2024-09-012410.54113/j.sust.2024.000053Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow componentsHaitao Li0Wenjing Zhou1Bingyu Jian2Xinqi Shen3Rodolfo Lorenzo4Mahmud Ashraf5College of Civil Engineering, Nanjing Forestry University, Nanjing 210037, China.College of Civil Engineering, Nanjing Forestry University, Nanjing 210037, China.College of Civil Engineering, Nanjing Forestry University, Nanjing 210037, China.College of Civil Engineering, Nanjing Forestry University, Nanjing 210037, China.University College London, London WC1E 6BT, UK.Deakin University, Geelong Waurn Ponds, VIC 3216, Australia.In order to study the quasi-static axial crushing performance of BFRP-bamboo winding composite hollow components, considering the cloth ratio of BFRP (0%~14.68%) the number of BFRP layers (0 layer~4 layers) as an influencing factor, 20 tube specimens were designed for quasi-static compression tests. In this paper, the failure modes of the specimens under quasi-static axial compressive load are presented with the relevant load-displacement curves. The deformation types were carefully studied to evaluate the compressive crushing indicators of the specimens. The test results showed that when the cloth ratio of BFRP increased from 0 to 14.68%, the specific energy absorption (SEA), the mean crushing force (MCF) and the crushing load efficiency (CFE) increased to some extent, whilst the initial peak crushing force (PCF) did not show any trend. When compared with those of the bamboo winding hollow components (BT), the SEA, MCF and CFE of BFRP-bamboo winding composite hollow components with four layers of BFRP winding outside of BT (BBT4) increased by 87.53%, 194.37% and 255.59% respectively. Compared with other composite hollow components such as composite wrapped hollow components (CWT) and carbon reinforced composite hollow components (CRCT), BFRP-bamboo winding composite hollow components (BBT) showed superior crushing resistance while offering the advantages of light weight.bamboo winding composite materialshollow componentsenergy absorptionfailure analysis |
| spellingShingle | Haitao Li Wenjing Zhou Bingyu Jian Xinqi Shen Rodolfo Lorenzo Mahmud Ashraf Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components Sustainable Structures bamboo winding composite materials hollow components energy absorption failure analysis |
| title | Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components |
| title_full | Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components |
| title_fullStr | Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components |
| title_full_unstemmed | Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components |
| title_short | Experimental evaluation on the axial crushing performance of BFRP-bamboo winding composite hollow components |
| title_sort | experimental evaluation on the axial crushing performance of bfrp bamboo winding composite hollow components |
| topic | bamboo winding composite materials hollow components energy absorption failure analysis |
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