CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION

Car chassis can be considered the primary protective shield for the safety of the passenger during rear-end crashes. This study focuses on the deformation and failure behaviour of the frontal car A-pillar chassis frame when subjected to collision with a heavy vehicle. Two different angles of the A-p...

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Published in:ARPN Journal of Engineering and Applied Sciences
Main Author: Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
Format: Article
Language:English
Published: Asian Research Publishing Network 2022
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164828116&partnerID=40&md5=c262ac090eedb98a8a7e8b23e1f8486d
id 2-s2.0-85164828116
spelling 2-s2.0-85164828116
Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
2022
ARPN Journal of Engineering and Applied Sciences
17
22

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164828116&partnerID=40&md5=c262ac090eedb98a8a7e8b23e1f8486d
Car chassis can be considered the primary protective shield for the safety of the passenger during rear-end crashes. This study focuses on the deformation and failure behaviour of the frontal car A-pillar chassis frame when subjected to collision with a heavy vehicle. Two different angles of the A-pillar chassis frame used are 45-degree and 70-degree. The crash simulation is conducted by using Finite Element software under the explicit dynamic. The car chassis frame geometries are designed by using SolidWorks 2021 and imported to the finite element software while a rigid block is designed in the finite element software as a rigid body to replicate the heavy vehicle. The chassis body is simulated for two types of materials, Aluminum alloy, and steel. The car speed impacted at 60 km/h. Results show that the intrusion of a rear barrier for 45 degrees of aluminum alloy will stop at 0.03 s but for 70 degrees it will intrude the car frame until the end. For the steel car frame, 45 degrees design is capable to withstand the intrusion of a rear barrier from a serious deform but for 70 degrees the intrusion will continue until the end. Car frame crush behaviour, energy dissipation, and vehicle decelerations from the crash simulation were observed. © 2006-2022 Asian Research Publishing Network (ARPN). All rights reserved.
Asian Research Publishing Network
18196608
English
Article

author Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
spellingShingle Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
author_facet Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
author_sort Ariffin N.; Kamarudin K.-A.; Abdullah A.S.; Samad M.I.A.
title CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
title_short CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
title_full CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
title_fullStr CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
title_full_unstemmed CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
title_sort CRASH INVESTIGATION ON FRONTAL VEHICLE CHASSIS FRAME USING FINITE ELEMENT SIMULATION
publishDate 2022
container_title ARPN Journal of Engineering and Applied Sciences
container_volume 17
container_issue 22
doi_str_mv
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164828116&partnerID=40&md5=c262ac090eedb98a8a7e8b23e1f8486d
description Car chassis can be considered the primary protective shield for the safety of the passenger during rear-end crashes. This study focuses on the deformation and failure behaviour of the frontal car A-pillar chassis frame when subjected to collision with a heavy vehicle. Two different angles of the A-pillar chassis frame used are 45-degree and 70-degree. The crash simulation is conducted by using Finite Element software under the explicit dynamic. The car chassis frame geometries are designed by using SolidWorks 2021 and imported to the finite element software while a rigid block is designed in the finite element software as a rigid body to replicate the heavy vehicle. The chassis body is simulated for two types of materials, Aluminum alloy, and steel. The car speed impacted at 60 km/h. Results show that the intrusion of a rear barrier for 45 degrees of aluminum alloy will stop at 0.03 s but for 70 degrees it will intrude the car frame until the end. For the steel car frame, 45 degrees design is capable to withstand the intrusion of a rear barrier from a serious deform but for 70 degrees the intrusion will continue until the end. Car frame crush behaviour, energy dissipation, and vehicle decelerations from the crash simulation were observed. © 2006-2022 Asian Research Publishing Network (ARPN). All rights reserved.
publisher Asian Research Publishing Network
issn 18196608
language English
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