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Science and Technology of Welding and Joining Volume 16, 2011 - Issue 2
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Original Article

Effect of shoulder cavity and welding parameters on friction stir welding of thin copper sheets

R M LealCEMUC, Department of Mechanical Engineering, University of Coimbra, Portugal;ESAD.CR, Polytechnic Institute of Leiria, Caldas da Rainha, Portugal
,
N SakharovaCEMUC, Department of Mechanical Engineering, University of Coimbra, Portugal
,
P VilaçaDEM‐IST, Technical University of Lisbon, Portugal
,
D M RodriguesCEMUC, Department of Mechanical Engineering, University of Coimbra, Portugal
&
A LoureiroCEMUC, Department of Mechanical Engineering, University of Coimbra, PortugalCorrespondence[email protected]
Pages 146-152 | Received 05 Jul 2010, Accepted 25 Sep 2010, Published online: 12 Nov 2013

Citations (21)

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Read on this site (3)

Yang Xu, Liming Ke, Yuqing Mao, Ping Yang & Pengliang Niu. (2022) Friction stir welding of aluminium to magnesium: a critical review. Materials Science and Technology 38:9, pages 517-534.
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I. Galvão, A. Loureiro & D. M. Rodrigues. (2016) Critical review on friction stir welding of aluminium to copper. Science and Technology of Welding and Joining 21:7, pages 523-546.
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H Farrokhi, A Heidarzadeh & T Saeid. (2013) Frictions stir welding of copper under different welding parameters and media. Science and Technology of Welding and Joining 18:8, pages 697-702.
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Articles from other publishers (18)

Yumeng Sun, Wei Liu, Yupeng Li, Shicheng Sun & Wenbiao Gong. (2023) Study on temperature field, microstructure, and properties of T2 pure copper by bobbin tool friction stir welding. The International Journal of Advanced Manufacturing Technology 127:3-4, pages 1341-1353.
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Yumeng Sun, Wenbiao Gong, Yupeng Li, Wei Liu, Shicheng Sun, Rui Zhu & Jiacheng Feng. (2023) Effect of rotation speed on microstructure and mechanical properties of bobbin tool friction stir welded T2 copper. Materials Today Communications 35, pages 106365.
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Yumeng Sun, Wenbiao Gong, Rui Zhu, Yupeng Li & Shicheng Sun. (2023) Research progress and prospect of friction stir welding of copper and copper alloys. Metallurgical Research & Technology 120:3, pages 309.
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Shivraman Thapliyal & Akshansh Mishra. (2021) Machine learning classification-based approach for mechanical properties of friction stir welding of copper. Manufacturing Letters 29, pages 52-55.
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Monica Daniela Iordache, Claudiu Badulescu, Malick Diakhate, Marius Adrian Constantin, Eduard Laurentiu Nitu, Younes Demmouche, Matthieu Dhondt & Denis Negrea. (2021) A numerical strategy to identify the FSW process optimal parameters of a butt-welded joint of quasi-pure copper plates: modeling and experimental validation. The International Journal of Advanced Manufacturing Technology 115:7-8, pages 2505-2520.
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M. Bakkiyaraj, S. Stephen Bernard, G. Saikrishnan, S. Guruyogesh, T.G. Guruprasanna & K. Dineshkumar. (2021) Effect of tool offset condition on mechanical and metallurgical properties of FSW dissimilar Al-Cu joint. Materials Today: Proceedings 43, pages 824-827.
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R Palanivel, RF Laubscher, S Vigneshwaran & I Dinaharan. (2016) Prediction and optimization of the mechanical properties of dissimilar friction stir welding of aluminum alloys using design of experiments. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 232:8, pages 1384-1394.
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Akbar Heidarzadeh & Tohid Saeid. (2016) Correlation between process parameters, grain size and hardness of friction-stir-welded Cu–Zn alloys. Rare Metals 37:5, pages 388-398.
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H. J. Zhang, M. Wang, Z. Zhu, X. Zhang, T. Yu & Z. Q. Wu. (2018) Impact of shoulder concavity on non-tool-tilt friction stir welding of 5052 aluminum alloy. The International Journal of Advanced Manufacturing Technology 96:1-4, pages 1497-1506.
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A. Azizi, R. Vatankhah Barenji, A. Vatankhah Barenji & M. Hashemipour. (2016) Microstructure and mechanical properties of friction stir welded thick pure copper plates. The International Journal of Advanced Manufacturing Technology 86:5-8, pages 1985-1995.
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A. Heidarzadeh & T. Saeid. (2016) A comparative study of microstructure and mechanical properties between friction stir welded single and double phase brass alloys. Materials Science and Engineering: A 649, pages 349-358.
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Nuno Mendes, Pedro Neto, Altino Loureiro & António Paulo Moreira. (2016) Machines and control systems for friction stir welding: A review. Materials & Design 90, pages 256-265.
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A. Heidarzadeh, M. Jabbari & M. Esmaily. (2014) Prediction of grain size and mechanical properties in friction stir welded pure copper joints using a thermal model. The International Journal of Advanced Manufacturing Technology 77:9-12, pages 1819-1829.
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Yousof Gheisari, Hamed Pashazadeh, Jamal Teimournezhad & Abolfazl Masoumi. (2014) Weld defect formation in FSWed coppers. Journal of Materials Engineering and Performance 23:6, pages 2000-2006.
Crossref
I. Galvão, R.M. Leal, D.M. Rodrigues & A. Loureiro. (2013) Influence of tool shoulder geometry on properties of friction stir welds in thin copper sheets. Journal of Materials Processing Technology 213:2, pages 129-135.
Crossref
I. Galvão, C. Leitão, A. Loureiro & D.M. Rodrigues. (2012) Study of the welding conditions during similar and dissimilar aluminium and copper welding based on torque sensitivity analysis. Materials & Design 42, pages 259-264.
Crossref
Ivan Galvão, Altino Loureiro, David Verdera, Daniel Gesto & Dulce Maria Rodrigues. (2012) Influence of Tool Offsetting on the Structure and Morphology of Dissimilar Aluminum to Copper Friction-Stir Welds. Metallurgical and Materials Transactions A 43:13, pages 5096-5105.
Crossref
I. Galvão, J.C. Oliveira, A. Loureiro & D.M. Rodrigues. (2012) Formation and distribution of brittle structures in friction stir welding of aluminium and copper: Influence of shoulder geometry. Intermetallics 22, pages 122-128.
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