Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle
The effects of structural geometry and reinforcement part on the crash behaviour have been investigated throughout this study. The crash analysis under lateral (side) impact has been investigated on crash behaviour in term of crash distance and energy absorption on front platform also the deforma...
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my.upm.eprints.53322013-05-27T07:22:03Z http://psasir.upm.edu.my/id/eprint/5332/ Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle Abdul Rahim, Norwazan The effects of structural geometry and reinforcement part on the crash behaviour have been investigated throughout this study. The crash analysis under lateral (side) impact has been investigated on crash behaviour in term of crash distance and energy absorption on front platform also the deformation shape of model. The crash behaviour studies for the geometry were analyzed in two different conditions which is the different bulge height and length attached on the front platform. In this case, the front platform was modified from the base front platform (without bulge) and joined the bulge plate together on the top of platform. This all the platform has been studies to compare their characteristic independently.The next section of analyses, the front platform are attached with all other parts was studied between different pattern and thickness of the side member and center member assembly front floor. The mounting parts for the CNG tank underneath front platform consisted of the mounting bracket, mounting strap and bottom reinforcement are also attached to this assembly. All the parts are known as a reinforcement parts. Firstly, the entire model are being studies on different pattern and continuing with the different thickness of the side member and center member assembly front floor. In the analytical work, finite element analyses were generated by using the HYPERMESH software and it has been analyzed using the LS DYNA software. In early stage, before the finite element models were created, the design stage of model is using the CATIA V5, 3D design software. From the results obtained, the final stage of analyses have been achieved that the front platform with the new the side member and center member assembly front floor is the best front platform to use as the fabrication work. The exactly thickness of the side member and center member assembly front floor is 1.2 mm. 2007 Thesis NonPeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/5332/1/FK_2007_89.pdf Abdul Rahim, Norwazan (2007) Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle. Masters thesis, Universiti Putra Malaysia. English |
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The effects of structural geometry and reinforcement part on the crash behaviour have
been investigated throughout this study. The crash analysis under lateral (side) impact
has been investigated on crash behaviour in term of crash distance and energy absorption
on front platform also the deformation shape of model.
The crash behaviour studies for the geometry were analyzed in two different conditions
which is the different bulge height and length attached on the front platform. In this case,
the front platform was modified from the base front platform (without bulge) and joined
the bulge plate together on the top of platform. This all the platform has been studies to
compare their characteristic independently.The next section of analyses, the front platform are attached with all other parts was
studied between different pattern and thickness of the side member and center member
assembly front floor. The mounting parts for the CNG tank underneath front platform
consisted of the mounting bracket, mounting strap and bottom reinforcement are also
attached to this assembly. All the parts are known as a reinforcement parts. Firstly, the
entire model are being studies on different pattern and continuing with the different
thickness of the side member and center member assembly front floor.
In the analytical work, finite element analyses were generated by using the
HYPERMESH software and it has been analyzed using the LS DYNA software. In early
stage, before the finite element models were created, the design stage of model is using
the CATIA V5, 3D design software.
From the results obtained, the final stage of analyses have been achieved that the front
platform with the new the side member and center member assembly front floor is the
best front platform to use as the fabrication work. The exactly thickness of the side
member and center member assembly front floor is 1.2 mm. |
format |
Thesis |
author |
Abdul Rahim, Norwazan |
spellingShingle |
Abdul Rahim, Norwazan Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
author_facet |
Abdul Rahim, Norwazan |
author_sort |
Abdul Rahim, Norwazan |
title |
Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
title_short |
Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
title_full |
Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
title_fullStr |
Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
title_full_unstemmed |
Effect of Bulge Geometry on Impact Behaviour of Front Platform of Compressed Natural Gas Vehicle |
title_sort |
effect of bulge geometry on impact behaviour of front platform of compressed natural gas vehicle |
publishDate |
2007 |
url |
http://psasir.upm.edu.my/id/eprint/5332/1/FK_2007_89.pdf http://psasir.upm.edu.my/id/eprint/5332/ |
_version_ |
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