Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds
A relatively successful dissimilar joint between 1050 pure aluminum and annealed low carbon steel is achieved by using friction stir welding. Most studies of joining aluminum to steel have been performed by using low rotational speed with high traverse speed to minimize heat in weld zones and to min...
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2020-09-01
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2238785420315258 |
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doaj-bd89c3fccc8949b0a1f407ed6b8725312020-11-25T03:55:51ZengElsevierJournal of Materials Research and Technology2238-78542020-09-01951020910222Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir weldsMohamed M. Abd Elnabi0T.A. Osman1A. El Mokadem2Abou Bakr Elshalakany3Mechanical Design and Production Engineering Department, Faculty of Engineering, Cairo University, Giza, Egypt; Mechatronics Technology Program, New Cairo Technological University NCTU, 5Th Settlement, Egypt; Corresponding author.Mechanical Design and Production Engineering Department, Faculty of Engineering, Cairo University, Giza, EgyptMechanical Design and Production Engineering Department, Faculty of Engineering, Cairo University, Giza, EgyptProduction Engineering and Printing Technology Department, Akhbar El Yom Academy, 6th of October City, Egypt; Mechatronics Technology Program, New Cairo Technological University NCTU, 5Th Settlement, EgyptA relatively successful dissimilar joint between 1050 pure aluminum and annealed low carbon steel is achieved by using friction stir welding. Most studies of joining aluminum to steel have been performed by using low rotational speed with high traverse speed to minimize heat in weld zones and to minimize the thickness of the intermetallic compounds (IMCs). Although the minimized heat may reduce the formation of brittle IMCs but the steel side may not be strongly influenced by this heat which affects the stirring action on both sides. The novelty of this analysis is applying great generated heat by employing a combination of a low traverse speed and a high rotational speed to accomplish the joints. In this study, a high rotational speed of 1550 rpm, a low traverse speed of 17 mm/min, a tilt angle of 1°, a pin length of 1.6 mm, and a deep shoulder surface penetration of 0.2 mm on 1.9 mm sheet thickness is the best set obtained to maximize both the frictional heat and the joint strength. The theory used exhibits more stirring of steel on aluminum than previous studies. The major contribution obtained from this study is knowing a new evaluation of the effect of the thicknesses of the IMCs formed at the interface and on the nugget. It is shown that the effect of the thickness of IMCs formed has a very little impact on the joint strength of about 1.3% at a very high difference in the IMCs thickness obtained between 7.5−8 μm and 8−36 μm. The joint strength depends on how the wide intermixing of steel edge on the aluminum side creates and the size/shape of steel particles.http://www.sciencedirect.com/science/article/pii/S2238785420315258Friction stir weldingIntermetallic compoundsBrittle featureTilt angleStrength |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Mohamed M. Abd Elnabi T.A. Osman A. El Mokadem Abou Bakr Elshalakany |
| spellingShingle |
Mohamed M. Abd Elnabi T.A. Osman A. El Mokadem Abou Bakr Elshalakany Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds Journal of Materials Research and Technology Friction stir welding Intermetallic compounds Brittle feature Tilt angle Strength |
| author_facet |
Mohamed M. Abd Elnabi T.A. Osman A. El Mokadem Abou Bakr Elshalakany |
| author_sort |
Mohamed M. Abd Elnabi |
| title |
Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| title_short |
Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| title_full |
Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| title_fullStr |
Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| title_full_unstemmed |
Evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| title_sort |
evaluation of the formation of intermetallic compounds at the intermixing lines and in the nugget of dissimilar steel/aluminum friction stir welds |
| publisher |
Elsevier |
| series |
Journal of Materials Research and Technology |
| issn |
2238-7854 |
| publishDate |
2020-09-01 |
| description |
A relatively successful dissimilar joint between 1050 pure aluminum and annealed low carbon steel is achieved by using friction stir welding. Most studies of joining aluminum to steel have been performed by using low rotational speed with high traverse speed to minimize heat in weld zones and to minimize the thickness of the intermetallic compounds (IMCs). Although the minimized heat may reduce the formation of brittle IMCs but the steel side may not be strongly influenced by this heat which affects the stirring action on both sides. The novelty of this analysis is applying great generated heat by employing a combination of a low traverse speed and a high rotational speed to accomplish the joints. In this study, a high rotational speed of 1550 rpm, a low traverse speed of 17 mm/min, a tilt angle of 1°, a pin length of 1.6 mm, and a deep shoulder surface penetration of 0.2 mm on 1.9 mm sheet thickness is the best set obtained to maximize both the frictional heat and the joint strength. The theory used exhibits more stirring of steel on aluminum than previous studies. The major contribution obtained from this study is knowing a new evaluation of the effect of the thicknesses of the IMCs formed at the interface and on the nugget. It is shown that the effect of the thickness of IMCs formed has a very little impact on the joint strength of about 1.3% at a very high difference in the IMCs thickness obtained between 7.5−8 μm and 8−36 μm. The joint strength depends on how the wide intermixing of steel edge on the aluminum side creates and the size/shape of steel particles. |
| topic |
Friction stir welding Intermetallic compounds Brittle feature Tilt angle Strength |
| url |
http://www.sciencedirect.com/science/article/pii/S2238785420315258 |
| work_keys_str_mv |
AT mohamedmabdelnabi evaluationoftheformationofintermetalliccompoundsattheintermixinglinesandinthenuggetofdissimilarsteelaluminumfrictionstirwelds AT taosman evaluationoftheformationofintermetalliccompoundsattheintermixinglinesandinthenuggetofdissimilarsteelaluminumfrictionstirwelds AT aelmokadem evaluationoftheformationofintermetalliccompoundsattheintermixinglinesandinthenuggetofdissimilarsteelaluminumfrictionstirwelds AT aboubakrelshalakany evaluationoftheformationofintermetalliccompoundsattheintermixinglinesandinthenuggetofdissimilarsteelaluminumfrictionstirwelds |
| _version_ |
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