Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load
In this paper, a comprehensive literature review is presented regarding dynamic progressive buckling analyses of foam-filled hat section columns. The results obtained from a numerical simulation were in good agreement with the theoretical predictions. Remarks and analyses are given about the influen...
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doaj-59dc9de35b4e4f15b45518d0af88d00d2020-11-25T03:45:05ZengITB Journal PublisherJournal of Engineering and Technological Sciences2337-57792338-55022017-04-0149114416210.5614/j.eng.technol.sci.2017.49.1.9Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact LoadHung Anh Ly0Thinh Thai Quang1Department of Aerospace Engineering, Faculty of Transportation Engineering, Ho Chi Minh City University of Technology (HCMUT), Ho Chi Minh City, VietnamDepartment of Aerospace Engineering, Faculty of Transportation Engineering, Ho Chi Minh City University of Technology (HCMUT), Ho Chi Minh City, VietnamIn this paper, a comprehensive literature review is presented regarding dynamic progressive buckling analyses of foam-filled hat section columns. The results obtained from a numerical simulation were in good agreement with the theoretical predictions. Remarks and analyses are given about the influence of aluminum foam filling in tubular-hat structures. The contribution of aluminum foam to increase both the crushing load and the mass specific energy absorption is significant. In addition, effects of geometrical parameters like wall thickness are discussed to study the role of thin walls in foam-filled hat sections.http://journals.itb.ac.id/index.php/jets/article/view/4638/2746energy absorptionfoam-filledimpactthin-walledtubular sections |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hung Anh Ly Thinh Thai Quang |
spellingShingle |
Hung Anh Ly Thinh Thai Quang Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load Journal of Engineering and Technological Sciences energy absorption foam-filled impact thin-walled tubular sections |
author_facet |
Hung Anh Ly Thinh Thai Quang |
author_sort |
Hung Anh Ly |
title |
Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load |
title_short |
Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load |
title_full |
Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load |
title_fullStr |
Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load |
title_full_unstemmed |
Behavior of Sandwich Tubular-hat Sections with Aluminum Foam Filler Subjected to Low Velocity Impact Load |
title_sort |
behavior of sandwich tubular-hat sections with aluminum foam filler subjected to low velocity impact load |
publisher |
ITB Journal Publisher |
series |
Journal of Engineering and Technological Sciences |
issn |
2337-5779 2338-5502 |
publishDate |
2017-04-01 |
description |
In this paper, a comprehensive literature review is presented regarding dynamic progressive buckling analyses of foam-filled hat section columns. The results obtained from a numerical simulation were in good agreement with the theoretical predictions. Remarks and analyses are given about the influence of aluminum foam filling in tubular-hat structures. The contribution of aluminum foam to increase both the crushing load and the mass specific energy absorption is significant. In addition, effects of geometrical parameters like wall thickness are discussed to study the role of thin walls in foam-filled hat sections. |
topic |
energy absorption foam-filled impact thin-walled tubular sections |
url |
http://journals.itb.ac.id/index.php/jets/article/view/4638/2746 |
work_keys_str_mv |
AT hunganhly behaviorofsandwichtubularhatsectionswithaluminumfoamfillersubjectedtolowvelocityimpactload AT thinhthaiquang behaviorofsandwichtubularhatsectionswithaluminumfoamfillersubjectedtolowvelocityimpactload |
_version_ |
1724511486222532608 |