Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials

Applications of welding process in the industry mostly involve the resistance of an object to resist the force applied. As such, the tensile strength and hardness of welding must be considered. The Metal Inert Gas welding is used to joint two plates of Aluminum, Mild Steel and Stainless Steel in bu...

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Main Author: Nik Nur Fatihah, Che Hassan
Other Authors: Prof. Dr. Bhuvenesh Rajamony
Format: Thesis
Language:English
Published: Universiti Malaysia Perlis (UniMAP) 2016
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Online Access:http://dspace.unimap.edu.my:80/xmlui/handle/123456789/41302
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Institution: Universiti Malaysia Perlis
Language: English
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spelling my.unimap-413022016-04-13T06:56:14Z Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials Nik Nur Fatihah, Che Hassan Prof. Dr. Bhuvenesh Rajamony Welding process MIG welding process Welding Aluminum Mild Steel Stainless steel Applications of welding process in the industry mostly involve the resistance of an object to resist the force applied. As such, the tensile strength and hardness of welding must be considered. The Metal Inert Gas welding is used to joint two plates of Aluminum, Mild Steel and Stainless Steel in butt joint type based on the selected parameters. The specimens used are 3mm thickness. Analysis of tensile strength using Ultimate Tensile Machine and hardness (Vickers Hardness Test) has been carried out on the surface of welding area. The highest values of tensile strength and hardness test were recorded. Taguchi method is used for design of experiment in order to obtain the optimum value for each analysis tested. The highest of Signal-to-Noise ratio graph for each parameter provide results of optimal values for each type of material. Analysis of Variance was carried out to identify the percentage of parameters contributions to the tension of a material. Confirmation tests carried out on the basis of optimum parameter which has been analyzed and found there was an error between predictions of optimal value and the actual experimental values. However, microstructure analysis has been done to support the results of the experiment. The images of penetration shown by Scanning Electron Microscope for Mild steel specimen are the highest penetration than others. The findings of the optimal value and table of results obtained can be used as a reference for various applications for metal inert gas welding in industry. 2016-04-13T06:56:14Z 2016-04-13T06:56:14Z 2013 Thesis http://dspace.unimap.edu.my:80/xmlui/handle/123456789/41302 en Universiti Malaysia Perlis (UniMAP) School of Manufacturing Engineering
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 Welding process
MIG welding process
Welding
Aluminum
Mild Steel
Stainless steel
spellingShingle Welding process
MIG welding process
Welding
Aluminum
Mild Steel
Stainless steel
Nik Nur Fatihah, Che Hassan
Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
description Applications of welding process in the industry mostly involve the resistance of an object to resist the force applied. As such, the tensile strength and hardness of welding must be considered. The Metal Inert Gas welding is used to joint two plates of Aluminum, Mild Steel and Stainless Steel in butt joint type based on the selected parameters. The specimens used are 3mm thickness. Analysis of tensile strength using Ultimate Tensile Machine and hardness (Vickers Hardness Test) has been carried out on the surface of welding area. The highest values of tensile strength and hardness test were recorded. Taguchi method is used for design of experiment in order to obtain the optimum value for each analysis tested. The highest of Signal-to-Noise ratio graph for each parameter provide results of optimal values for each type of material. Analysis of Variance was carried out to identify the percentage of parameters contributions to the tension of a material. Confirmation tests carried out on the basis of optimum parameter which has been analyzed and found there was an error between predictions of optimal value and the actual experimental values. However, microstructure analysis has been done to support the results of the experiment. The images of penetration shown by Scanning Electron Microscope for Mild steel specimen are the highest penetration than others. The findings of the optimal value and table of results obtained can be used as a reference for various applications for metal inert gas welding in industry.
author2 Prof. Dr. Bhuvenesh Rajamony
author_facet Prof. Dr. Bhuvenesh Rajamony
Nik Nur Fatihah, Che Hassan
format Thesis
author Nik Nur Fatihah, Che Hassan
author_sort Nik Nur Fatihah, Che Hassan
title Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
title_short Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
title_full Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
title_fullStr Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
title_full_unstemmed Optimization of mig welding process parameters on mechanical properties of Al-MS-SS materials
title_sort optimization of mig welding process parameters on mechanical properties of al-ms-ss materials
publisher Universiti Malaysia Perlis (UniMAP)
publishDate 2016
url http://dspace.unimap.edu.my:80/xmlui/handle/123456789/41302
_version_ 1643799629859389440