Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology

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Main Author:	Muhammad Zaki, Zamri
Other Authors:	zakizamri07@gmail.com
Format:	Article
Language:	English
Published:	Penerbit UniMAP (UniMAP Press) 2022
Subjects:	Response surface methodolog Finite element analysis Optimization Piston rod
Online Access:	http://dspace.unimap.edu.my:80/xmlui/handle/123456789/77353
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Institution:	Universiti Malaysia Perlis
Language:	English

id	my.unimap-77353
record_format	dspace
spelling	my.unimap-773532022-12-04T03:24:50Z Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology Muhammad Zaki, Zamri Muhammad Zaki, Zamri zakizamri07@gmail.com Faculty of Mechanical Engineering & Technology, Universiti Malaysia Perlis (UniMAP) Response surface methodolog Finite element analysis Optimization Piston rod Link to publisher's homepage at https://aset.unimap.edu.my Car absorbers provide a comfortable ride and improve ride handling by delivering road wheel contact. The typical car absorber problems are oil leakage and piston rod wear-out due to the lateral friction between the shell case and piston rod. The piston rod can bend and rupture when exposed to higher vibration exerting high impact force. This study focuses on optimizing car absorber piston rod design parameters via finite element analysis. The response surface methodology (RSM) was utilized to create the design of the numerical experiment. The piston rod parameters (i.e., length of the piston rod, the piston rod diameter #1, and the piston rod diameter #2) were optimized to reduce the stress and displacement of the piston rod. The optimization results revealed that the optimum parameters were 254 mm in piston length, 24.79 mm in diameter #1, and 15 mm in diameter #2. With the optimized piston rod parameters, the stress and displacement of the piston were 1.65048E+007 and 0.007569 mm, respectively. The most significant factors that influence the responses were also studied. The suggested optimized factors and responses were validated in the finite element simulation. 2022 2022-12-04T03:24:50Z 2022-12-04T03:24:50Z 2022-12 Article Advanced and Sustainable Technologies (ASET), vol.1(2), 2022, pages 20-29 2976-2294 (online) http://dspace.unimap.edu.my:80/xmlui/handle/123456789/77353 https://aset.unimap.edu.my en Penerbit UniMAP (UniMAP Press)
institution	Universiti Malaysia Perlis
building	UniMAP Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaysia Perlis
content_source	UniMAP Library Digital Repository
url_provider	http://dspace.unimap.edu.my/
language	English
topic	Response surface methodolog Finite element analysis Optimization Piston rod
spellingShingle	Response surface methodolog Finite element analysis Optimization Piston rod Muhammad Zaki, Zamri Muhammad Zaki, Zamri Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
description	Link to publisher's homepage at https://aset.unimap.edu.my
author2	zakizamri07@gmail.com
author_facet	zakizamri07@gmail.com Muhammad Zaki, Zamri Muhammad Zaki, Zamri
format	Article
author	Muhammad Zaki, Zamri Muhammad Zaki, Zamri
author_sort	Muhammad Zaki, Zamri
title	Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
title_short	Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
title_full	Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
title_fullStr	Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
title_full_unstemmed	Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology
title_sort	multi-objective optimization of absorber piston rod design parameter using response surface methodology
publisher	Penerbit UniMAP (UniMAP Press)
publishDate	2022
url	http://dspace.unimap.edu.my:80/xmlui/handle/123456789/77353
_version_	1753973016674435072

Multi-objective optimization of absorber piston rod design parameter using Response Surface Methodology

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