Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach

In the automotive context, a vehicle’s crashworthiness represents its ability to protect the occupants in case of accidents or collisions. This paper documents the design and topology study process of the prototype FSAE (Formula of Student Automotive Engineers) vehicle regarding the crashworthiness...

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Published in:Journal of Advanced Research in Applied Sciences and Engineering Technology
Main Author: Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
Format: Article
Language:English
Published: Semarak Ilmu Publishing 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85178372836&doi=10.37934%2faraset.33.2.328339&partnerID=40&md5=927ac76edf06524461ebcb5674b2840a
id 2-s2.0-85178372836
spelling 2-s2.0-85178372836
Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
2024
Journal of Advanced Research in Applied Sciences and Engineering Technology
33
2
10.37934/araset.33.2.328339
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85178372836&doi=10.37934%2faraset.33.2.328339&partnerID=40&md5=927ac76edf06524461ebcb5674b2840a
In the automotive context, a vehicle’s crashworthiness represents its ability to protect the occupants in case of accidents or collisions. This paper documents the design and topology study process of the prototype FSAE (Formula of Student Automotive Engineers) vehicle regarding the crashworthiness aspect. This project aims to generate design for the chassis of prototype FSAE vehicles through a biomimetic approach to simulate the feasibility of biological systems integration in engineering design. Studies on different biological structures good in compression loading resistance and distribution have been conducted according to the selected biomimicry approach. Quasi-static finite element analysis with dynamic loading analysis was implemented in studying the axial, lateral and bending deformation of the designed chassis concerning the specific energy absorption of the model. The following biomimicry approach has successfully shown potentiality in creating a satisfactory solution for automotive problems. The final chassis of the prototype FSAE vehicle shows specific energy absorptivity of up to 130 kJ/kg upon normal to critical impact conditions. CAD design of the expected prototype is produced, along with the presentation of a scaled-down fabricated 3D model. Considering the performance aspect of the prototype FSAE vehicle, the weight of the vehicle chassis has been successfully minimised by 30.8%. © 2024, Semarak Ilmu Publishing. All rights reserved.
Semarak Ilmu Publishing
24621943
English
Article
All Open Access; Hybrid Gold Open Access
author Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
spellingShingle Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
author_facet Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
author_sort Lim C.E.; Chong K.H.; Sia C.C.V.; Lee Y.Y.; Lee M.D.
title Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
title_short Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
title_full Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
title_fullStr Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
title_full_unstemmed Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
title_sort Numerical Study for Crashworthiness of FSAE Vehicle Chassis via Biomimetic Approach
publishDate 2024
container_title Journal of Advanced Research in Applied Sciences and Engineering Technology
container_volume 33
container_issue 2
doi_str_mv 10.37934/araset.33.2.328339
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85178372836&doi=10.37934%2faraset.33.2.328339&partnerID=40&md5=927ac76edf06524461ebcb5674b2840a
description In the automotive context, a vehicle’s crashworthiness represents its ability to protect the occupants in case of accidents or collisions. This paper documents the design and topology study process of the prototype FSAE (Formula of Student Automotive Engineers) vehicle regarding the crashworthiness aspect. This project aims to generate design for the chassis of prototype FSAE vehicles through a biomimetic approach to simulate the feasibility of biological systems integration in engineering design. Studies on different biological structures good in compression loading resistance and distribution have been conducted according to the selected biomimicry approach. Quasi-static finite element analysis with dynamic loading analysis was implemented in studying the axial, lateral and bending deformation of the designed chassis concerning the specific energy absorption of the model. The following biomimicry approach has successfully shown potentiality in creating a satisfactory solution for automotive problems. The final chassis of the prototype FSAE vehicle shows specific energy absorptivity of up to 130 kJ/kg upon normal to critical impact conditions. CAD design of the expected prototype is produced, along with the presentation of a scaled-down fabricated 3D model. Considering the performance aspect of the prototype FSAE vehicle, the weight of the vehicle chassis has been successfully minimised by 30.8%. © 2024, Semarak Ilmu Publishing. All rights reserved.
publisher Semarak Ilmu Publishing
issn 24621943
language English
format Article
accesstype All Open Access; Hybrid Gold Open Access
record_format scopus
collection Scopus
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