Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron
Through additive manufacturing is possible to obtain products with few material waste, low production time and great flexibility in geometry. In recent years, the application of arc welding processes has been studied as additive manufacturing techniques for metals. When compared to laser welding pro...
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Universidade do Porto
2021-03-01
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| Series: | U.Porto Journal of Engineering |
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| Online Access: | https://journalengineering.fe.up.pt/index.php/upjeng/article/view/773 |
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doaj-acd0728c5e4145ddadfe0f751b5644c42021-03-08T14:17:41ZengUniversidade do PortoU.Porto Journal of Engineering2183-64932021-03-0172889710.24840/2183-6493_007.002_0011622Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast IronAugusto Dttmann0https://orcid.org/0000-0003-2264-8572Jefferson de Oliveira Gomes1https://orcid.org/0000-0002-6004-799XAeronautics Institute of Technology (ITA)Aeronautics Institute of Technology (ITA)Through additive manufacturing is possible to obtain products with few material waste, low production time and great flexibility in geometry. In recent years, the application of arc welding processes has been studied as additive manufacturing techniques for metals. When compared to laser welding processes, they have low equipment cost, high deposition rate, however a low surface quality. This work proposes to study the machinability of additive manufacturing parts using automated GMAW. The deposition was carried out using a robotic arm, using ER70S-6' wire with a substrate of nodular cast iron. Two deposition strategies were carried out, one alternating the passes directions and the other one depositing in the same direction. The machining process used was milling in a three axis machining center. The deposition strategy had an influence on the parts surface finish after machining, as well as on the tool life.https://journalengineering.fe.up.pt/index.php/upjeng/article/view/773additive manufacturingwaammachininggmaw |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Augusto Dttmann Jefferson de Oliveira Gomes |
| spellingShingle |
Augusto Dttmann Jefferson de Oliveira Gomes Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron U.Porto Journal of Engineering additive manufacturing waam machining gmaw |
| author_facet |
Augusto Dttmann Jefferson de Oliveira Gomes |
| author_sort |
Augusto Dttmann |
| title |
Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron |
| title_short |
Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron |
| title_full |
Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron |
| title_fullStr |
Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron |
| title_full_unstemmed |
Evaluation of Additive Manufacturing Parts Machinability using Automated GMAW ER70S-6 with Nodular Cast Iron |
| title_sort |
evaluation of additive manufacturing parts machinability using automated gmaw er70s-6 with nodular cast iron |
| publisher |
Universidade do Porto |
| series |
U.Porto Journal of Engineering |
| issn |
2183-6493 |
| publishDate |
2021-03-01 |
| description |
Through additive manufacturing is possible to obtain products with few material waste, low production time and great flexibility in geometry. In recent years, the application of arc welding processes has been studied as additive manufacturing techniques for metals. When compared to laser welding processes, they have low equipment cost, high deposition rate, however a low surface quality. This work proposes to study the machinability of additive manufacturing parts using automated GMAW. The deposition was carried out using a robotic arm, using ER70S-6' wire with a substrate of nodular cast iron. Two deposition strategies were carried out, one alternating the passes directions and the other one depositing in the same direction. The machining process used was milling in a three axis machining center. The deposition strategy had an influence on the parts surface finish after machining, as well as on the tool life. |
| topic |
additive manufacturing waam machining gmaw |
| url |
https://journalengineering.fe.up.pt/index.php/upjeng/article/view/773 |
| work_keys_str_mv |
AT augustodttmann evaluationofadditivemanufacturingpartsmachinabilityusingautomatedgmawer70s6withnodularcastiron AT jeffersondeoliveiragomes evaluationofadditivemanufacturingpartsmachinabilityusingautomatedgmawer70s6withnodularcastiron |
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