Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]

Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]

Experimental crashworthiness investigation on thin walled tube structure always contribute into a complicated process with huge amount of cost is wasted on specimen preparation perfection. Advance numerical solution has been found as a significant option in order to simplify the process while enhan...

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Main Authors: M. M., Mansol, N. I., Ismail, Basri M, Hisyam, S. H, Tang, M. K., Anuar
Format: Article
Language:English
Published: Universiti Teknologi MARA Pulau Pinang 2014
Subjects:
Indexes (General)
Online Access:https://ir.uitm.edu.my/id/eprint/10653/
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author M. M., Mansol
N. I., Ismail
Basri M, Hisyam
S. H, Tang
M. K., Anuar
author_facet M. M., Mansol
N. I., Ismail
Basri M, Hisyam
S. H, Tang
M. K., Anuar
author_sort M. M., Mansol
building UiTM Institutional Repository
collection Online Access
description Experimental crashworthiness investigation on thin walled tube structure always contribute into a complicated process with huge amount of cost is wasted on specimen preparation perfection. Advance numerical solution has been found as a significant option in order to simplify the process while enhancing the understanding of this crashworthiness behavior. Therefore, current works have been carried out based on finite element method to perform a quasi-static axial crush on selected thin walled tube structures. Here, the circular and rectangular tubes of aluminium alloys Al 3003 H12 sections are selected based on its wide application on front chassis rail component. Essential boundary conditions have been applied in order to accurately simulate the quasi-static axial crush behavior. Preliminary verification results has shown that current numerical method is capable to produce a good correlation results with selected experimental data in terms of energy absorption, crushing length and collapse starting point. However, there is also a slight discrepancy observed in cylindrical 1.5 mm deformation mode behavior.
first_indexed 2025-11-14T21:31:35Z
format Article
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institution Universiti Teknologi MARA
institution_category Local University
language English
last_indexed 2025-11-14T21:31:35Z
publishDate 2014
publisher Universiti Teknologi MARA Pulau Pinang
recordtype eprints
repository_type Digital Repository
spelling uitm-106532022-06-16T09:05:25Z https://ir.uitm.edu.my/id/eprint/10653/ Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.] esteem M. M., Mansol N. I., Ismail Basri M, Hisyam S. H, Tang M. K., Anuar Indexes (General) Experimental crashworthiness investigation on thin walled tube structure always contribute into a complicated process with huge amount of cost is wasted on specimen preparation perfection. Advance numerical solution has been found as a significant option in order to simplify the process while enhancing the understanding of this crashworthiness behavior. Therefore, current works have been carried out based on finite element method to perform a quasi-static axial crush on selected thin walled tube structures. Here, the circular and rectangular tubes of aluminium alloys Al 3003 H12 sections are selected based on its wide application on front chassis rail component. Essential boundary conditions have been applied in order to accurately simulate the quasi-static axial crush behavior. Preliminary verification results has shown that current numerical method is capable to produce a good correlation results with selected experimental data in terms of energy absorption, crushing length and collapse starting point. However, there is also a slight discrepancy observed in cylindrical 1.5 mm deformation mode behavior. Universiti Teknologi MARA Pulau Pinang 2014 Article NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/10653/1/Mansol%20M.%20M.pdf M. M., Mansol and N. I., Ismail and Basri M, Hisyam and S. H, Tang and M. K., Anuar (2014) Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]. (2014) ESTEEM Academic Journal <https://ir.uitm.edu.my/view/publication/ESTEEM_Academic_Journal.html>, 10 (1). ISSN 1675-7939
spellingShingle Indexes (General)
M. M., Mansol
N. I., Ismail
Basri M, Hisyam
S. H, Tang
M. K., Anuar
Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title_full Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title_fullStr Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title_full_unstemmed Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title_short Analysis of thin walled tube AL 3003 H12 under Quasi-Static axial crush mode using finite element method / Mansol M. M. ... [et al.]
title_sort analysis of thin walled tube al 3003 h12 under quasi-static axial crush mode using finite element method / mansol m. m. ... [et al.]
topic Indexes (General)
url https://ir.uitm.edu.my/id/eprint/10653/

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