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Concept selection of a new longitudinal member design with developed Bi-metallic model

Steel material has a widely use in automotive applications for the high stiffness that could provide more safety for the passengers. On the other hand, the steel has quite a heavy weight due to its high density. A new longitudinal member design has been presented in order to give more safety in many...

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Main Authors: Khalid K.S., Tarlochan F., Al-Qrimli H.F.
Other Authors: 55534155400
Format: Conference Paper
Published: 2023
Subjects:
Bi-metallic material
COPRAS
Oblique crash
PDS
Selection of concept
Aluminum
Model automobiles
Optical telescopes
Safety engineering
Telescopes
Tubes (components)
Assessment methods
Automotive applications
Bending resistance
Car models
Collision tests
Concept selection
Crash situations
Crash tests
Engineering specification
High density
High stiffness
Member design
New design
Oblique collision
Outer component
Specific energy absorption
Steel materials
Design
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id my.uniten.dspace-30157
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spelling my.uniten.dspace-301572024-04-18T11:02:01Z Concept selection of a new longitudinal member design with developed Bi-metallic model Khalid K.S. Tarlochan F. Al-Qrimli H.F. 55534155400 9045273600 30367473200 Bi-metallic material COPRAS Oblique crash PDS Selection of concept Aluminum Model automobiles Optical telescopes Safety engineering Telescopes Tubes (components) Assessment methods Automotive applications Bending resistance Car models Collision tests Concept selection COPRAS Crash situations Crash tests Engineering specification High density High stiffness Member design New design Oblique collision Oblique crash Outer component PDS Selection of concept Specific energy absorption Steel materials Design Steel material has a widely use in automotive applications for the high stiffness that could provide more safety for the passengers. On the other hand, the steel has quite a heavy weight due to its high density. A new longitudinal member design has been presented in order to give more safety in many crash situations. Two dynamic collision tests (frontal and oblique) have been simulated. The new design concept needs two separate components. An interior tube called the crash component. This component is simulated with a bi-metallic material (combination of steel and aluminum) to reduce the weight by up to 25 %. This interior tube controls the front crash test to exhibit a desirable energy. The outer part called the support component, contains four stiff tubes fitted to each other in order to slide over each other like a telescope. The outer component produces high bending resistance in the case of an oblique collision. There are five different concepts for the telescope (arc side, inside arc side, hat side, taper side and sharp side). The complex proportional assessment method (COPRAS) has been used for selecting the best design. Using the COPRAS method helps to meet the satisfaction of engineering specifications and costumer needs. Six different criteria, which were specified as specific energy absorption, crash force efficiency for frontal and 30 degrees, cost and ease manufacturing, were analyzed to form the initial matrix. It is concluded that the sharp angle side can be used for the longitudinal member design with a mid car model. � 2012, Advanced Engineering Solutions. Final 2023-12-29T07:45:04Z 2023-12-29T07:45:04Z 2012 Conference Paper 2-s2.0-84871403197 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84871403197&partnerID=40&md5=d569dd6be1a6f42178583f52a1b0a37e https://irepository.uniten.edu.my/handle/123456789/30157 125 134 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Bi-metallic material
COPRAS
Oblique crash
PDS
Selection of concept
Aluminum
Model automobiles
Optical telescopes
Safety engineering
Telescopes
Tubes (components)
Assessment methods
Automotive applications
Bending resistance
Car models
Collision tests
Concept selection
COPRAS
Crash situations
Crash tests
Engineering specification
High density
High stiffness
Member design
New design
Oblique collision
Oblique crash
Outer component
PDS
Selection of concept
Specific energy absorption
Steel materials
Design
spellingShingle Bi-metallic material
COPRAS
Oblique crash
PDS
Selection of concept
Aluminum
Model automobiles
Optical telescopes
Safety engineering
Telescopes
Tubes (components)
Assessment methods
Automotive applications
Bending resistance
Car models
Collision tests
Concept selection
COPRAS
Crash situations
Crash tests
Engineering specification
High density
High stiffness
Member design
New design
Oblique collision
Oblique crash
Outer component
PDS
Selection of concept
Specific energy absorption
Steel materials
Design
Khalid K.S.
Tarlochan F.
Al-Qrimli H.F.
Concept selection of a new longitudinal member design with developed Bi-metallic model
description Steel material has a widely use in automotive applications for the high stiffness that could provide more safety for the passengers. On the other hand, the steel has quite a heavy weight due to its high density. A new longitudinal member design has been presented in order to give more safety in many crash situations. Two dynamic collision tests (frontal and oblique) have been simulated. The new design concept needs two separate components. An interior tube called the crash component. This component is simulated with a bi-metallic material (combination of steel and aluminum) to reduce the weight by up to 25 %. This interior tube controls the front crash test to exhibit a desirable energy. The outer part called the support component, contains four stiff tubes fitted to each other in order to slide over each other like a telescope. The outer component produces high bending resistance in the case of an oblique collision. There are five different concepts for the telescope (arc side, inside arc side, hat side, taper side and sharp side). The complex proportional assessment method (COPRAS) has been used for selecting the best design. Using the COPRAS method helps to meet the satisfaction of engineering specifications and costumer needs. Six different criteria, which were specified as specific energy absorption, crash force efficiency for frontal and 30 degrees, cost and ease manufacturing, were analyzed to form the initial matrix. It is concluded that the sharp angle side can be used for the longitudinal member design with a mid car model. � 2012, Advanced Engineering Solutions.
author2 55534155400
author_facet 55534155400
Khalid K.S.
Tarlochan F.
Al-Qrimli H.F.
format Conference Paper
author Khalid K.S.
Tarlochan F.
Al-Qrimli H.F.
author_sort Khalid K.S.
title Concept selection of a new longitudinal member design with developed Bi-metallic model
title_short Concept selection of a new longitudinal member design with developed Bi-metallic model
title_full Concept selection of a new longitudinal member design with developed Bi-metallic model
title_fullStr Concept selection of a new longitudinal member design with developed Bi-metallic model
title_full_unstemmed Concept selection of a new longitudinal member design with developed Bi-metallic model
title_sort concept selection of a new longitudinal member design with developed bi-metallic model
publishDate 2023
_version_ 1806427753060237312
score 13.188404

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