Mathematical modelling to predict bead geometry in MIG welded aluminium 6101 plates
MIG (Metal Inert Gas) welding is a popular metal joining process due to its ability to weld a wide variety of metals. The mechanical properties of a weld are governed by the weld geometry parameters, namely the height of reinforcement, the width of the bead and penetration depth. The input welding p...
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| Published in | Materials today : proceedings Vol. 113; pp. 152 - 158 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2214-7853 2214-7853 |
| DOI | 10.1016/j.matpr.2023.08.051 |
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| Abstract | MIG (Metal Inert Gas) welding is a popular metal joining process due to its ability to weld a wide variety of metals. The mechanical properties of a weld are governed by the weld geometry parameters, namely the height of reinforcement, the width of the bead and penetration depth. The input welding parameters like wire feed rate, voltage, welding speed etc. in turn decide the above bead geometry parameters. The present research work aims at developing mathematical models connecting these input parameters to the bead geometry parameters for MIG welded aluminium 6101 plates. The mathematical models were generated by the central composite rotatable design technique. The developed models’ adequacy was verified by ANOVA (Analysis of variance) and RSM (Response Surface Methodology) was used to analyze the results graphically. |
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| AbstractList | MIG (Metal Inert Gas) welding is a popular metal joining process due to its ability to weld a wide variety of metals. The mechanical properties of a weld are governed by the weld geometry parameters, namely the height of reinforcement, the width of the bead and penetration depth. The input welding parameters like wire feed rate, voltage, welding speed etc. in turn decide the above bead geometry parameters. The present research work aims at developing mathematical models connecting these input parameters to the bead geometry parameters for MIG welded aluminium 6101 plates. The mathematical models were generated by the central composite rotatable design technique. The developed models’ adequacy was verified by ANOVA (Analysis of variance) and RSM (Response Surface Methodology) was used to analyze the results graphically. |
| Author | Chaurasia, Aman Kumar Khanna, Pradeep Aggarwal, Anshul |
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| Cites_doi | 10.1088/1757-899X/1107/1/012037 10.1007/978-981-16-2794-1_64 10.1088/1757-899X/1126/1/012022 10.3390/met5042148 10.1080/13621718.2018.1564986 10.1177/0954405412441561 |
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| Keywords | MIG Welding Aluminium 6101 Mathematical model ANOVA Bead geometry Input parameters |
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| SubjectTerms | Aluminium 6101 ANOVA Bead geometry Input parameters Mathematical model MIG Welding |
| Title | Mathematical modelling to predict bead geometry in MIG welded aluminium 6101 plates |
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