Effect of the eddies formed inside a weld pool on welding defects during plasma keyhole arc welding
•3-dimensional images of eddies of weld pool in plasma keyhole arc welding (PKAW) process were observed in details.•Relationship among heat transport, convection, eddies formation and welding defects was discussed.•The results from this study can be applied to control efficiently PKAW process for re...
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Published in | Journal of manufacturing processes Vol. 59; pp. 649 - 657 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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Elsevier Ltd
01.11.2020
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Abstract | •3-dimensional images of eddies of weld pool in plasma keyhole arc welding (PKAW) process were observed in details.•Relationship among heat transport, convection, eddies formation and welding defects was discussed.•The results from this study can be applied to control efficiently PKAW process for reducing welding defects.
In this study, the formation process of welding defects in plasma keyhole arc welding was investigated based on the formation of eddies inside the weld pool. An experimental approach using an advanced X-ray visualization system was employed to clarify this relationship. The results indicated that two large eddies are produced in the weld pool. One exhibits an upward tendency (upper eddy) and the other a downward tendency (lower eddy). The relative strength of each eddy significantly changed depending on the welding current through the change in the keyhole profile (shape and size). For a suitable welding current, the lower eddy was larger and much longer than the upper eddy. Virtually no welding defects were found out in the cross-section and longitudinal sections of the weld pool and keyhole. In the case of low current, the upper eddy was larger and longer than the lower eddy. Severe undercut and humping phenomena were observed on the top side. Contrarily, for a high welding current, the upper eddy disappeared to only form a significantly large lower eddy that covered the entire weld pool. Here, a severe concave defect on the top surface and a severe burn-through defect on the bottom side of the weld bead were seen. These results indicated that when the penetration ability of an arc on the base metal is sufficient, the relative strength of each eddy should be adjusted to a suitable scale with a larger downward eddy and smaller upward eddy. This can ensure a stable and high welding quality without welding defects. |
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AbstractList | •3-dimensional images of eddies of weld pool in plasma keyhole arc welding (PKAW) process were observed in details.•Relationship among heat transport, convection, eddies formation and welding defects was discussed.•The results from this study can be applied to control efficiently PKAW process for reducing welding defects.
In this study, the formation process of welding defects in plasma keyhole arc welding was investigated based on the formation of eddies inside the weld pool. An experimental approach using an advanced X-ray visualization system was employed to clarify this relationship. The results indicated that two large eddies are produced in the weld pool. One exhibits an upward tendency (upper eddy) and the other a downward tendency (lower eddy). The relative strength of each eddy significantly changed depending on the welding current through the change in the keyhole profile (shape and size). For a suitable welding current, the lower eddy was larger and much longer than the upper eddy. Virtually no welding defects were found out in the cross-section and longitudinal sections of the weld pool and keyhole. In the case of low current, the upper eddy was larger and longer than the lower eddy. Severe undercut and humping phenomena were observed on the top side. Contrarily, for a high welding current, the upper eddy disappeared to only form a significantly large lower eddy that covered the entire weld pool. Here, a severe concave defect on the top surface and a severe burn-through defect on the bottom side of the weld bead were seen. These results indicated that when the penetration ability of an arc on the base metal is sufficient, the relative strength of each eddy should be adjusted to a suitable scale with a larger downward eddy and smaller upward eddy. This can ensure a stable and high welding quality without welding defects. |
Author | Ngo, Manh Huu Van Nguyen, Anh Van Bui, Hanh Tanaka, Manabu Tashiro, Shinichi |
Author_xml | – sequence: 1 givenname: Anh orcidid: 0000-0002-1670-2328 surname: Van Nguyen fullname: Van Nguyen, Anh organization: Joining and Welding Research Institute (JWRI), Osaka University, Japan – sequence: 2 givenname: Shinichi orcidid: 0000-0001-5702-6998 surname: Tashiro fullname: Tashiro, Shinichi email: tashiro@jwri.osaka-u.ac.jp organization: Joining and Welding Research Institute (JWRI), Osaka University, Japan – sequence: 3 givenname: Manh Huu surname: Ngo fullname: Ngo, Manh Huu organization: Sao Do University, Viet Nam – sequence: 4 givenname: Hanh surname: Van Bui fullname: Van Bui, Hanh organization: School of Mechanical Engineering, Hanoi University of Science and Technology, Viet Nam – sequence: 5 givenname: Manabu surname: Tanaka fullname: Tanaka, Manabu organization: Joining and Welding Research Institute (JWRI), Osaka University, Japan |
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Snippet | •3-dimensional images of eddies of weld pool in plasma keyhole arc welding (PKAW) process were observed in details.•Relationship among heat transport,... |
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SubjectTerms | Eddy Heat transportation Plasma keyhole arc welding Welding defects X-ray observation system |
Title | Effect of the eddies formed inside a weld pool on welding defects during plasma keyhole arc welding |
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