ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED
This research presents an investigation of research objective to determine the variation of grain structure due to vary travel speed input. In this experiment, the type of material conducted is aluminum AA6063. This type of aluminum has the lowest magnesium and alloy compare to other 6000 series alu...
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my.unikl.ir-102732015-06-24T00:32:09Z ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED MUHAMMAD JAI BIN AZALI@AZMAN MUHAMMAD MUNIIM BIN MOHD TAHER UNIKL MIMET This research presents an investigation of research objective to determine the variation of grain structure due to vary travel speed input. In this experiment, the type of material conducted is aluminum AA6063. This type of aluminum has the lowest magnesium and alloy compare to other 6000 series aluminum. It also has high corrosion resistance and high conductivity than steel. AA6063 is suitable for all conventional welding methods. The analysis techniques to determine the grain structure by using the Optical Microscopic (OM) and Laser Scan Microscopic. The selection in determining the surface has been divided into several sections on the specimen surface which is Thermo-mechanically Affected Zone (TMAZ), Heat Affected Zone (HAZ) weld nugget and parent metal 2015-06-24T00:32:09Z 2015-06-24T00:32:09Z 2015-06-24 Book http://localhost/xmlui/handle/123456789/10273 en |
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This research presents an investigation of research objective to determine the variation of grain structure due to vary travel speed input. In this experiment, the type of material conducted is aluminum AA6063. This type of aluminum has the lowest magnesium and alloy compare to other 6000 series aluminum. It also has high corrosion resistance and high conductivity than steel. AA6063 is suitable for all conventional welding methods. The analysis techniques to determine the grain structure by using the Optical Microscopic (OM) and Laser Scan Microscopic. The selection in determining the surface has been divided into several sections on the specimen surface which is Thermo-mechanically Affected Zone (TMAZ), Heat Affected Zone (HAZ) weld nugget and parent metal |
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MUHAMMAD JAI BIN AZALI@AZMAN MUHAMMAD MUNIIM BIN MOHD TAHER UNIKL MIMET |
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MUHAMMAD JAI BIN AZALI@AZMAN MUHAMMAD MUNIIM BIN MOHD TAHER UNIKL MIMET ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
author_facet |
MUHAMMAD JAI BIN AZALI@AZMAN MUHAMMAD MUNIIM BIN MOHD TAHER UNIKL MIMET |
author_sort |
MUHAMMAD JAI BIN AZALI@AZMAN |
title |
ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
title_short |
ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
title_full |
ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
title_fullStr |
ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
title_full_unstemmed |
ALUMINIUM 6063 MICROSTRUCTURE ANALYSIS OF FRICTION STIR WELDED PIPE BUTT JOINT IN DIFFERENT TRAVEL SPEED |
title_sort |
aluminium 6063 microstructure analysis of friction stir welded pipe butt joint in different travel speed |
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2015 |
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http://localhost/xmlui/handle/123456789/10273 |
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1644485138882494464 |
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13.222552 |