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

Development of friction stir welding of high strength steel sheet

M. MatsushitaSteel Research Laboratory, JFE Steel Corporation, 1 Kawasaki‐cho, Chuo‐ku, Chiba260‐0835, JapanCorrespondencemu‐matsushita@jfe‐steel.co.jp
,
Y. KitaniSteel Research Laboratory, JFE Steel Corporation, 1 Kawasaki‐cho, Chuo‐ku, Chiba260‐0835, Japan
,
R. IkedaSteel Research Laboratory, JFE Steel Corporation, 1 Kawasaki‐cho, Chuo‐ku, Chiba260‐0835, Japan
,
M. OnoJFE Techno-Research Corporation, 1 Kawasaki‐cho, Chuo‐ku, China, 260‐0835, Japan
,
H. FujiiJoining and Welding Research Institute, Osaka University, 11‐1 Mihogaoka, Ibaraki, Osaka567‐0047, Japan
&
Y.‐D. ChungJoining and Welding Research Institute, Osaka University, 11‐1 Mihogaoka, Ibaraki, Osaka567‐0047, Japan
Pages 181-187 | Received 13 Oct 2011, Accepted 03 Dec 2010, Published online: 12 Nov 2013

Citations (49)

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Chetan P Nikhare. (2022) Channel deformation of bilayer material using tool rollers: Part I-Springback. Advances in Materials and Processing Technologies 8:sup3, pages 1842-1864.
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Z. W. Wang, G. N. Ma, B. H. Yu, P. Xue, G. M. Xie, H. Zhang, D. R. Ni, B. L. Xiao & Z. Y. Ma. (2020) Improving mechanical properties of friction-stir-spot-welded advanced ultra-high-strength steel with additional water cooling. Science and Technology of Welding and Joining 25:4, pages 336-344.
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Yuki Ogawa, Hiroyuki Akebono, Kojiro Tanaka & Atsushi Sugeta. (2019) Effect of welding time on fatigue properties of friction stir spot welds of Al to carbon fibre-reinforced plastic. Science and Technology of Welding and Joining 24:3, pages 235-242.
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V. K. Parikh, A. D. Badgujar & N. D. Ghetiya. (2019) Joining of metal matrix composites using friction stir welding: a review. Materials and Manufacturing Processes 34:2, pages 123-146.
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A. De, H. K. D. H. Bhadeshia & T. DebRoy. (2014) Friction stir welding of mild steel: tool durability and steel microstructure. Materials Science and Technology 30:9, pages 1050-1056.
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J Taendl, S Nambu, J Inoue, N Enzinger & T Koseki. (2012) Friction stir welding of multilayered steel. Science and Technology of Welding and Joining 17:3, pages 244-253.
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Emre Korkmaz & Cemal Meran. (2023) The examination of microstructural and mechanical properties of friction stir welded XPF800 steel. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, pages 095440622311694.
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Umer Masood Chaudry, Seung-Chang Han & Tea-Sung Jun. (2023) Effect of welding speed on the microstructure and texture development in the individual weld zone of friction stir welded DP780 steel. Journal of Materials Research and Technology 23, pages 4976-4989.
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Muneo Matsushita, Daiki Yamagishi, Satoshi Igi & Rinsei Ikeda. (2023) Development of double-sided friction stir welding of advanced high strength steel sheets. Welding in the World 67:3, pages 561-571.
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V Abhilash & A K Lakshminarayanan. (2023) Friction stir lap joining techniques effects on microstructure and tensile properties of high-strength automotive steel top hat sections. Materials Research Express 10:2, pages 026505.
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Yutaka S. Sato, Shunsuke Mimura, Shun Tokita, Yusuke Yasuda, Akihiro Sato & Satoshi Hirano. 2023. Friction Stir Welding and Processing XII. Friction Stir Welding and Processing XII 99 106 .
C. Devanathan, A. Suresh Babu, S. Senthil Murugan, E. Shankar & R. Giri. (2022) Review of Joining Various Materials by FSW Process and Applications. Annals of Dunarea de Jos University of Galati. Fascicle XII, Welding Equipment and Technology 33, pages 75-88.
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Nicolene van Rooyen, Madhumanti Bhattacharyya, Indrajit Charit & Michael R. Maughan. (2022) Indentation investigation of 304L stainless steel friction stir weld simulated crack repair. Materials Science and Engineering: A 836, pages 142691.
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Z.W. Wang, J.F. Zhang, G.M. Xie, L.H. Wu, H. Zhang, P. Xue, D.R. Ni, B.L. Xiao & Z.Y. Ma. (2022) Evolution mechanisms of microstructure and mechanical properties in a friction stir welded ultrahigh-strength quenching and partitioning steel. Journal of Materials Science & Technology 102, pages 213-223.
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Z.W. Wang, M. Liu, H. Zhang, G.M. Xie, P. Xue, L.H. Wu, Z. Zhang, D.R. Ni, B.L. Xiao & Z.Y. Ma. (2022) Welding behavior of an ultrahigh-strength quenching and partitioning steel by fusion and solid-state welding methods. Journal of Materials Research and Technology 17, pages 1289-1301.
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Anna Zykova, Andrey Vorontsov, Andrey Chumaevskii, Denis Gurianov, Anastasija Gusarova, Evgeny Kolubaev & Sergei Tarasov. (2022) Structural evolution of contact parts of the friction stir processing heat-resistant nickel alloy tool used for multi-pass processing of Ti6Al4V/(Cu+Al) system. Wear 488-489, pages 204138.
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Kuniaki Dohda, Masahito Yamamoto, Chengliang Hu, Laurent Dubar & Kornel F. Ehmann. (2020) Galling phenomena in metal forming. Friction 9:4, pages 665-685.
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Umer Masood Chaudry, Seung-Chang Han, Fathia Alkelae & Tea-Sung Jun. (2021) Effect of PWHT on the Microstructure and Mechanical Properties of Friction Stir Welded DP780 Steel. Metals 11:7, pages 1097.
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HyeonJeong You, Minjung Kang, Sung Yi, Soongkeun Hyun & Cheolhee Kim. (2021) Comprehensive Analysis of the Microstructure and Mechanical Properties of Friction-Stir-Welded Low-Carbon High-Strength Steels with Tensile Strengths Ranging from 590 MPa to 1.5 GPa. Applied Sciences 11:12, pages 5728.
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Mahdi Mahmoudiniya & Leo A.I. Kestens. (2021) Microstructural development and texture evolution in the stir zone and thermomechanically affected zone of a ferrite-martensite steel friction stir weld. Materials Characterization 175, pages 111053.
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A. Heidarzadeh, S. Mironov, R. Kaibyshev, G. Çam, A. Simar, A. Gerlich, F. Khodabakhshi, A. Mostafaei, D.P. Field, J.D. Robson, A. Deschamps & P.J. Withers. (2021) Friction stir welding/processing of metals and alloys: A comprehensive review on microstructural evolution. Progress in Materials Science 117, pages 100752.
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Mahdi Mahmoudiniya, Amir Hossein Kokabi, Massoud Goodarzi & Leo A. I. Kestens. (2020) The Effect of Improved Cooling on the Microstructure and Mechanical Properties of Friction Stir‐Welded Advanced High‐Strength Dual‐Phase Steel. steel research international 92:2, pages 2000253.
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Z.W. Wang, H. Zhang, X.H. An, L.H. Wu, P. Xue, Q.C. Zhang, D.R. Ni, B.L. Xiao & Z.Y. Ma. (2020) Achieving equal strength joint to parent metal in a friction stir welded ultra-high strength quenching and partitioning steel. Materials Science and Engineering: A 793, pages 139979.
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Wen Wang, Shengyi Zhang, Ke Qiao, Kuaishe Wang, Pai Peng, Shengnan Yuan, Shanyong Chen, Ting Zhang, Qiang Wang, Tie Liu & Qi Yang. (2020) Microstructure and mechanical properties of friction stir welded joint of TRIP steel. Journal of Manufacturing Processes 56, pages 623-634.
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Z. W. Wang, G. M. Xie, D. Wang, H. Zhang, D. R. Ni, P. Xue, B. L. Xiao & Z. Y. Ma. (2019) Microstructural Evolution and Mechanical Behavior of Friction-Stir-Welded DP1180 Advanced Ultrahigh Strength Steel. Acta Metallurgica Sinica (English Letters) 33:1, pages 58-66.
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Cyril Vimalraj, Paul Kah, Pavel Layus, Eric Mvola Belinga & Sergey Parshin. (2018) High-strength steel S960QC welded with rare earth nanoparticle coated filler wire. The International Journal of Advanced Manufacturing Technology 102:1-4, pages 105-119.
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Akihiko IKUTA. (2019) Fundamental Study on Technological Method to Improve Tool Life on Friction Stir Welding by Tool Designツール設計によるツール寿命向上技術の基礎検討. JOURNAL OF THE JAPAN WELDING SOCIETY 88:3, pages 174-179.
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Ishita Koley, Sukumar Kundu & Satish V. Kailas. (2019) Friction stir welding of ultra low carbon steel: microstructure, mechanical properties and electrochemical study. Metallurgical Research & Technology 116:1, pages 118.
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Mahdi Mahmoudiniya, Amir Hossein Kokabi, Shahram Kheirandish & Leo A.I. Kestens. (2018) Microstructure and mechanical properties of friction stir welded ferrite-martensite DP700 steel. Materials Science and Engineering: A 737, pages 213-222.
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Hrishikesh Das, Kwang-Jin Lee & Sung-Tae Hong. (2017) Study on Microtexture and Martensite Formation of Friction Stir Lap-welded DP 590 Steel within A1 to A3 Temperature Range. Journal of Materials Engineering and Performance 26:7, pages 3607-3613.
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Jagesvar Verma & Ravindra Vasantrao Taiwade. (2017) Effect of welding processes and conditions on the microstructure, mechanical properties and corrosion resistance of duplex stainless steel weldments—A review. Journal of Manufacturing Processes 25, pages 134-152.
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S. Rahimi, B. P. Wynne & T. N. Baker. (2016) Development of Microstructure and Crystallographic Texture in a Double-Sided Friction Stir Welded Microalloyed Steel. Metallurgical and Materials Transactions A 48:1, pages 362-378.
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Pascal Paillard, Emmanuel Bertrand, Marion Allart, Alexandre Benoit & Guillaume Ruckert. (2016) Microstructure, mechanical properties and microtexture of friction stir welded S690QL high yield steel. Materials Characterization 122, pages 183-188.
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Gladys Perez Medina, Hugo Lopez Ferreira, Patricia Zambrano Robledo, Argelia Miranda Pérez & Felipe A. Reyes Valdés. (2016) Microstructural Development in a TRIP-780 Steel Joined by Friction Stir Welding (FSW): Quantitative Evaluations and Comparisons with EBSD Predictions. Soldagem & Inspeção 21:2, pages 146-155.
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Shuhuai Lan, Xun Liu & Jun Ni. (2015) Microstructural evolution during friction stir welding of dissimilar aluminum alloy to advanced high-strength steel. The International Journal of Advanced Manufacturing Technology 82:9-12, pages 2183-2193.
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A. Dorbane, G. Ayoub, B. Mansoor, R.F. Hamade, G. Kridli, R. Shabadi & A. Imad. (2016) Microstructural observations and tensile fracture behavior of FSW twin roll cast AZ31 Mg sheets. Materials Science and Engineering: A 649, pages 190-200.
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Hyoungwook Lee, Cheolhee Kim & Jung Song. (2015) An Evaluation of Global and Local Tensile Properties of Friction-Stir Welded DP980 Dual-Phase Steel Joints Using a Digital Image Correlation Method. Materials 8:12, pages 8424-8436.
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L.H. Wu, D. Wang, B.L. Xiao & Z.Y. Ma. (2014) Tool wear and its effect on microstructure and properties of friction stir processed Ti–6Al–4V. Materials Chemistry and Physics 146:3, pages 512-522.
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P. Xue, Y. Komizo, R. Ueji & H. Fujii. (2014) Enhanced mechanical properties in friction stir welded low alloy steel joints via structure refining. Materials Science and Engineering: A 606, pages 322-329.
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S. Mandal, J. Rice, G. Hou, K. M. Williamson & A. A. Elmustafa. (2012) Modeling and Simulation of a Donor Material Concept to Reduce Tool Wear in Friction Stir Welding of High-Strength Materials. Journal of Materials Engineering and Performance 22:6, pages 1558-1564.
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Hidetoshi FUJII & Yoshiaki MORISADA. (2013) Leading-edge Technology of FSW. JOURNAL OF THE JAPAN WELDING SOCIETY 82:3, pages 167-172.
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P. Xue, H. Zhao, Y. Komizo & Z.Y. Ma. 2013. Proceedings of the 1st International Joint Symposium on Joining and Welding. Proceedings of the 1st International Joint Symposium on Joining and Welding 445 448 .
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Hidetoshi FUJII. (2012) Current Status and Prospects of Friction Stir Welding Technology. Journal of the Vacuum Society of Japan 55:11, pages 481-486.
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