期刊
JOURNAL OF MANUFACTURING PROCESSES
卷 71, 期 -, 页码 156-167出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.jmapro.2021.09.015
关键词
Electric arc constriction; Wire arc additive manufacturing; GTAW; Walls geometry; Microstructure
资金
- Industrial Technical College
- Federal University of Santa Maria
The new technologies in additive manufacturing for metallic materials have shown promise in achieving complex geometries, reducing cycle time, and minimizing waste. However, further advancements are still necessary for improving efficiency and productivity. Wire arc additive manufacturing (WAAM) is a popular method for manufacturing medium to large components due to its high deposition rate and flexibility in building size.
New technologies for the additive manufacturing process applied to metallic materials have created a great outlook for complex geometries, cycle time and waste reduction. However, advances in efficiency and productivity are still needed for this process to be consolidated as a reliable manufacturing process. Wire arc additive manufacturing (WAAM) uses metallic materials to deposit a series of layers through melting and solidification, and that have proved to be an attractive process for the manufacturing of medium to large size components due its high deposition rate and potentially unlimited building size. Among the available heat sources is the GTAW (Gas tungsten arc welding) process with feed wire, where the heat source comes from an electric arc. The electric arc cross section is bell shaped and forms a round shape when it touches the weld pool. This study presents a device to electromagnetically constrict the electric arc in the GTAW process, capable of changing the cross section from round to elliptical (elongated), and the result of its application in additive manufacturing. The results show that the application of this arc constriction in wire arc additive manufacturing increases the height of the deposited walls by 10%, produces more regular geometry walls, in addition to increasing the process efficiency and promoting a microstructural grain refining effect. The results were statistically supported by the tstudent test with 95% reliability, enabling the applicability of this device to increase the height of the deposited walls.
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