Energy absorption capability of thin-walled aluminium tubes under crash loading
This paper investigates the interaction of design factors such as tube thickness, tube length, and tube cross-sectional aspect ratio, along with friction and impacting mass on crashworthiness parameters such as specific energy absorption contact time, peak force and crush distance. The impact veloci...
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Universiti Malaysia Pahang
2023
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my.uniten.dspace-222062023-05-29T13:59:37Z Energy absorption capability of thin-walled aluminium tubes under crash loading Khalili P. Tarlochan F. Hamouda A.M.S. Al-Khalifa K. 57188694190 9045273600 7005464521 24536663600 This paper investigates the interaction of design factors such as tube thickness, tube length, and tube cross-sectional aspect ratio, along with friction and impacting mass on crashworthiness parameters such as specific energy absorption contact time, peak force and crush distance. The impact velocity is assumed to be constant at 15 m/s. The focus is on rectangular aluminium tubes and the analysis was carried out by using a validated finite element model. The analysis shows that the factors are not independent of each other and there is some degree of interaction between them. It was found that the trigger mechanism is a very important design factor to be included in the design of thin-walled tubes for energy absorption applications. The effect of the friction coefficient was found to be insignificant and finally, based on the interactions, it can be concluded that the most effective design would be a larger tube with small wall thickness, and a larger aspect ratio to avoid buckling. � 2015 Universiti Malaysia Pahang, Malaysia. Final 2023-05-29T05:59:37Z 2023-05-29T05:59:37Z 2015 Article 10.15282/jmes.9.2015.19.0167 2-s2.0-84962476816 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84962476816&doi=10.15282%2fjmes.9.2015.19.0167&partnerID=40&md5=6ba3ad7e1f94eaabe21e91a14249a777 https://irepository.uniten.edu.my/handle/123456789/22206 9 1734 1743 All Open Access, Gold, Green Universiti Malaysia Pahang Scopus |
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This paper investigates the interaction of design factors such as tube thickness, tube length, and tube cross-sectional aspect ratio, along with friction and impacting mass on crashworthiness parameters such as specific energy absorption contact time, peak force and crush distance. The impact velocity is assumed to be constant at 15 m/s. The focus is on rectangular aluminium tubes and the analysis was carried out by using a validated finite element model. The analysis shows that the factors are not independent of each other and there is some degree of interaction between them. It was found that the trigger mechanism is a very important design factor to be included in the design of thin-walled tubes for energy absorption applications. The effect of the friction coefficient was found to be insignificant and finally, based on the interactions, it can be concluded that the most effective design would be a larger tube with small wall thickness, and a larger aspect ratio to avoid buckling. � 2015 Universiti Malaysia Pahang, Malaysia. |
| author2 |
57188694190 |
| author_facet |
57188694190 Khalili P. Tarlochan F. Hamouda A.M.S. Al-Khalifa K. |
| format |
Article |
| author |
Khalili P. Tarlochan F. Hamouda A.M.S. Al-Khalifa K. |
| spellingShingle |
Khalili P. Tarlochan F. Hamouda A.M.S. Al-Khalifa K. Energy absorption capability of thin-walled aluminium tubes under crash loading |
| author_sort |
Khalili P. |
| title |
Energy absorption capability of thin-walled aluminium tubes under crash loading |
| title_short |
Energy absorption capability of thin-walled aluminium tubes under crash loading |
| title_full |
Energy absorption capability of thin-walled aluminium tubes under crash loading |
| title_fullStr |
Energy absorption capability of thin-walled aluminium tubes under crash loading |
| title_full_unstemmed |
Energy absorption capability of thin-walled aluminium tubes under crash loading |
| title_sort |
energy absorption capability of thin-walled aluminium tubes under crash loading |
| publisher |
Universiti Malaysia Pahang |
| publishDate |
2023 |
| _version_ |
1806425698950184960 |
| score |
13.214268 |