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Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials

Organized by School of Materials Engineering & Sustainable Engineering Research Cluster, 1st - 2nd December 2009 at Putra Brasmana Hotel, Kuala Perlis, Perlis.

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Bibliographic Details
Main Authors:	Nozie, Abdullah, Al Imran, Ismail, Shahruddin, Mahzan@Mohd Zin, Ahmad Mujahid, Ahmad Zaidi, Imran, Ghazali
Other Authors:	sharudin@uthm.edu.my
Format:	Working Paper
Language:	English
Published:	Universiti Malaysia Perlis 2010
Subjects:	A36 steel 316L steel TIG welding Microstructures Mechanical testing Vibration Dissimilar joint Steel
Online Access:	http://dspace.unimap.edu.my/xmlui/handle/123456789/7518
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id	my.unimap-7518
record_format	dspace
spelling	my.unimap-75182010-01-19T02:37:55Z Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials Nozie, Abdullah Al Imran, Ismail Shahruddin, Mahzan@Mohd Zin Ahmad Mujahid, Ahmad Zaidi Imran, Ghazali sharudin@uthm.edu.my A36 steel 316L steel TIG welding Microstructures Mechanical testing Vibration Dissimilar joint Steel Organized by School of Materials Engineering & Sustainable Engineering Research Cluster, 1st - 2nd December 2009 at Putra Brasmana Hotel, Kuala Perlis, Perlis. Dissimilar joint is a new technology but often faces problems related to fatigue and fracture. Therefore, the research is conducted to investigate the capacity extension between two different materials. All specimens are produced in rod shape with diameter of 12mm. There are two types of materials used; stainless steel 316L and mild steel A36. Three different combinations comprising 316L - 316L steel, A36 - A36 steel and 316L - A36 steel are made using Tungsten Inert Gas (TIG) welding. Fatigue test is operated against specimen that have one notch with 3mm in depth at welding areas and base material area with fixed ratio, R=-1 and value ∆σ=199.9MPa. The results show that tensile strength for similar joint of 316L steel was the highest. Number of Vickers hardness indicates that base material for 316L steel has the highest value of 247.2Hv. The result also shows that dissimilar joint produced the highest cycles of 650.905x103 cycles for σ=199.9MPa with the early crack occurred at base material. Vibration which occurred during specimen start to fracture is analyzed. It shows that when speed of revolution is increased, amplitude and velocity are also increased. The fracture specimen surface is observed to have swollen (dimples) and small holes (micro-voids). 2010-01-19T02:37:20Z 2010-01-19T02:37:20Z 2009-12-01 Working Paper p.1-5 http://hdl.handle.net/123456789/7518 en Proceedings of the Malaysian Metallurgical Conference '09 (MMC'09) Universiti Malaysia Perlis
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	A36 steel 316L steel TIG welding Microstructures Mechanical testing Vibration Dissimilar joint Steel
spellingShingle	A36 steel 316L steel TIG welding Microstructures Mechanical testing Vibration Dissimilar joint Steel Nozie, Abdullah Al Imran, Ismail Shahruddin, Mahzan@Mohd Zin Ahmad Mujahid, Ahmad Zaidi Imran, Ghazali Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
description	Organized by School of Materials Engineering & Sustainable Engineering Research Cluster, 1st - 2nd December 2009 at Putra Brasmana Hotel, Kuala Perlis, Perlis.
author2	sharudin@uthm.edu.my
author_facet	sharudin@uthm.edu.my Nozie, Abdullah Al Imran, Ismail Shahruddin, Mahzan@Mohd Zin Ahmad Mujahid, Ahmad Zaidi Imran, Ghazali
format	Working Paper
author	Nozie, Abdullah Al Imran, Ismail Shahruddin, Mahzan@Mohd Zin Ahmad Mujahid, Ahmad Zaidi Imran, Ghazali
author_sort	Nozie, Abdullah
title	Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
title_short	Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
title_full	Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
title_fullStr	Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
title_full_unstemmed	Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials
title_sort	fatigue vibration monitoring using laser doppler for dissimilar joint of cracked materials
publisher	Universiti Malaysia Perlis
publishDate	2010
url	http://dspace.unimap.edu.my/xmlui/handle/123456789/7518
_version_	1643788849532370944
score	13.18916

Fatigue vibration monitoring using Laser Doppler for dissimilar joint of cracked materials

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