Investigation on dissimilar underwater friction stir lap welding of 6061-T6 aluminum alloy to pure copper |
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Affiliation: | 1. Department of Mechanical Engineering, St Xavier''s Catholic College of Engineering, Chunkankadai 629003, Tamil Nadu, India;2. Department of Manufacturing Engineering, College of Engineering Guindy, Anna University, Chennai 600025, Tamil Nadu, India;1. School of Mechanical Engineering, College of Engineering, University of Tehran, Tehran, Iran;2. Department of Mechanical Engineering, College of Engineering, University of Urmia, Urmia, Iran |
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Abstract: | Friction stir welding (classical FSW) is considered to offer advantages over the traditional fusion welding techniques in terms of dissimilar welding. However, some challenges still exist in the dissimilar friction stir lap welding of the aluminum/copper (Al/Cu) metallic couple, among which the formation of the Al–Cu intermetallic compounds is the major problem. In the present research, due to the fact that the formation and growth of the intermetallic are significantly controlled by the thermal history, the underwater friction stir welding (underwater FSW) was employed for fabricating the weld, and the weld obtained by underwater FSW (underwater weld) was analyzed via comparing with the weld obtained under same parameters by classical FSW (classical weld). In order to investigate the effect of the external water on the thermal history, the K-type thermocouple was utilized to measure the weld temperature, and it is found that the water could decrease the peak temperature and shorten the thermal cycle time. The XRD results illustrate that the interface of the welds mainly consist of the Al–Cu intermetallic compounds such as CuAl2 and Cu9Al4 together with some amounts of Al and Cu, and it is also found that the amount of the intermetallic in the underwater weld is obvious less than in the classical weld. The SEM images and the EDS line scan results also illustrate that the Al–Cu diffusion interlayer at the Al–Cu interface of the underwater weld was obviously thinner than that of the classical weld. |
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Keywords: | Underwater Friction stir welding Dissimilar Temperature history Intermetallic compounds |
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