• Journal of Welding and Joining
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• v.30 no.2
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• pp.31-36
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• 2012

• Proceedings of the KWS Conference
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• 2004.05a
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• pp.159-161
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• 2004

FSW공전은 특수하게 설계된 용접툴(tool)을 특정한 회전수로 회전시키면서 용접하고자하는 재료의 용접라인에 삽입하여 용접에 필요한 마찰열과 소성변형을 발생시키고, 그 후 용접라인을 따라 툴을 이동시킴으로써 용접이 이루어지는 매우 간단한 공정이다. (중략)

• Journal of Welding and Joining
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• v.26 no.6
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• pp.30-35
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• 2008

• Journal of Welding and Joining
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• v.29 no.5
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• pp.54-57
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• 2011

• Journal of the Korean Society of Manufacturing Process Engineers
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• v.12 no.6
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• pp.45-51
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• 2013

Friction stir welding using aluminum alloys has been widely applied for transportation vehicles because of the light specific weight, which can be used to obtain sound joint and high mechanical properties. This study shows the effects of rotation speed, welding speed, welding load, and tool shape on defect formation with extruded AA6005, which is used for railway vehicle structures of non-uniform thickness welded by friction stir welding using load control systems. Optical microscopy observations and liquid penetrant testing of each FSW joint were carried out in order to observe defect formation. Two kinds of defects, that of probe wear and that of lack of penetration in the bottom of the welded zone, were observed. In the case of using a taper shaped tool, the defect free zone is very narrow, within 100 kgf; however, in case of using a cylindrical shape tool, the defect free zone is wider.

• Journal of Korea Foundry Society
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• v.29 no.4
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• pp.165-168
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• 2009

• Journal of the Korea Academia-Industrial cooperation Society
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• v.17 no.7
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• pp.434-441
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• 2016

Friction Stir Welding (FSW) is a solid-state joining process involving the frictional heat between the materials and tools. The amount of heat conducted into the workpiece determines the quality of the welded zone. Excessive heat input is the cause of oxides and porosity defects, and insufficient heat input can cause problems, such as tunnel defects. Therefore, analyzing the temperature history and distribution at the center of the Friction Stir Welded zone is very important. In this study, the temperature distribution of the friction stir welding region of an AZ61 magnesium alloy was investigated. To achieve this goal, the temperature and metal flow was predicted using the finite element method. In FE analysis, the welding tool was simplified and the friction condition was optimized. Moreover, the temperature measuring test at the center of the welding region was performed to verify the FE results. In this study, the tool rotation speed was a more dominant factor than the welding speed. In addition, the predicted temperature at the center of the welding region showed good agreement with the measurement results within the error range of 5.4% - 7.7%.

• Proceedings of the KWS Conference
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• v.43
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• pp.103-105
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• 2004

• Journal of Welding and Joining
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• v.24 no.4
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• pp.1-5
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• 2006

• Journal of Welding and Joining
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• v.28 no.5
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• pp.28-34
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• 2010