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Science and Technology of Welding and Joining Volume 11, 2006 - Issue 6
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Articles

3D rigid viscoplastic FE modelling of continuous drive friction welding process

Q. Z. Zhang
,
L. W. Zhang
,
W. W. Liu
,
X. G. Zhang
,
W. H. Zhu
&
S. Qu
Pages 737-743 | Published online: 04 Dec 2013

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G. L. Wang, J. L. Li, J. T. Xiong, W. L. Wang, P. Y. MA & F. S. Zhang. (2019) Study on the friction interface evolution during rotary friction welding of tube. Journal of Adhesion Science and Technology 33:10, pages 1033-1046.
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Peng Li, Jinglong Li, Xun Li, Jiangtao Xiong, Fusheng Zhang & Li Liang. (2015) A study of the mechanisms involved in initial friction process of continuous drive friction welding. Journal of Adhesion Science and Technology 29:12, pages 1246-1257.
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L B Yang, J-C Gebelin & R C Reed. (2011) Modelling of inertia welding of IN718 superalloy. Materials Science and Technology 27:8, pages 1249-1264.
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H. Davari, M.H. Parsa, A.M. Hadian & M. Nili Ahmadabadi. (2011) Experimental and Numerical Thermomechanical Analysis of Hybrid Friction Welding of Commercially Pure Copper Bars. Materials and Manufacturing Processes 26:5, pages 694-702.
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M. B. Uday, M. N. Ahmad Fauzi, H. Zuhailawati & A. B. Ismail. (2010) Advances in friction welding process: a review. Science and Technology of Welding and Joining 15:7, pages 534-558.
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Madhusudhan G. Reddy, Sambasiva A. Rao & T. Mohandas. (2008) Role of electroplated interlayer in continuous drive friction welding of AA6061 to AISI 304 dissimilar metals. Science and Technology of Welding and Joining 13:7, pages 619-628.
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M. Maalekian. (2007) Friction welding – critical assessment of literature. Science and Technology of Welding and Joining 12:8, pages 738-759.
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Articles from other publishers (28)

Hao Wang, Guoliang Qin & Changan Li. (2023) Effect of different friction coefficient models on numerical simulation of inertia friction welding of 2219 Al alloy to 304 stainless steel. Journal of Materials Research and Technology 27, pages 6474-6483.
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Amborish Banerjee, Laurie da Silva & Salaheddin Rahimi. (2023) Finite element modelling of transient behaviours and microstructural evolution during dissimilar rotary friction welding of 316 austenitic stainless steel to A516 ferritic steel. Journal of Advanced Joining Processes 8, pages 100167.
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Amborish Banerjee, Laurie Da Silva, Hitesh Sharma, Andrew Platts & Salaheddin Rahimi. (2023) Evolution of Microstructure in MLX®19 Maraging Steel During Rotary Friction Welding and Finite Element Modeling of the Process. Journal of Manufacturing Science and Engineering 145:10.
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M. K. Pradhan & Deepansh Gill. 2023. Recent Advances in Materials and Manufacturing Technology. Recent Advances in Materials and Manufacturing Technology 103 121 .
Kejin Zhang, Xusheng Qian, Jieshi Chen, Junmei Chen & Hao Lu. (2022) Non-monotonic evolution of microstructure and fatigue properties of round bar–plate rotary friction welding joints in 304 austenitic stainless steel. Materials & Design 224, pages 111400.
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Mohammed Asmael, Babak Safaei, Omer Kalaf, Qasim Zeeshan, Fadi Aldakheel, Tauqir Nasir & Zhicheng Yang. (2022) Recent developments in tensile properties of friction welding of carbon fiber-reinforced composite: A review. Nanotechnology Reviews 11:1, pages 1408-1436.
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Peng Li, Yu Jiang, Shuai Wang, Chao Li, Haotian Sun, Baosheng Wu, Honggang Dong & Jun Zhou. (2022) Effect of post-weld heat treatment on inhomogeneity of mechanical properties and corrosion behavior of rotary friction welded 2024 aluminum alloy joint. Journal of Manufacturing Processes 75, pages 1012-1022.
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Deepansh Gill & M. K. Pradhan. 2022. Advances in Mechanical Engineering and Material Science. Advances in Mechanical Engineering and Material Science 181 197 .
M. Khodakarami, A. Farzadi & A. Ramazani. (2020) Molecular dynamics study of the effect of alloying elements and imperfections on linear friction welding of Cu and Ni metals. Journal of Molecular Graphics and Modelling 101, pages 107712.
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Peihao Geng, Guoliang Qin & Jun Zhou. (2019) Numerical and experimental investigation on friction welding of austenite stainless steel and middle carbon steel. Journal of Manufacturing Processes 47, pages 83-97.
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Feng Jin, Jinglong Li, Pu Liu, Xujing Nan, Xun Li, Jiangtao Xiong & Fusheng Zhang. (2019) Friction coefficient model and joint formation in rotary friction welding. Journal of Manufacturing Processes 46, pages 286-297.
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Feng Jin, Jinglong Li, Yajie Du, Xujing Nan, Junmiao Shi, Jiangtao Xiong & Fusheng Zhang. (2019) Numerical simulation based upon friction coefficient model on thermo-mechanical coupling in rotary friction welding corresponding with corona-bond evolution. Journal of Manufacturing Processes 45, pages 595-602.
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J.T. Xiong, L. Yuan, Y.J. Du, J.M. Shi & J.L. Li. (2019) The thermodynamic analytical models for steady-state of continuous drive friction welding based on the maximum entropy production principle. Applied Thermal Engineering 159, pages 113840.
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Xujing Nan, Jiangtao Xiong, Feng Jin, Xun Li, Zhongxiang Liao, Fusheng Zhang & Jinglong Li. (2019) Modeling of rotary friction welding process based on maximum entropy production principle. Journal of Manufacturing Processes 37, pages 21-27.
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G L Wang, J L Li, J T Xiong, P Y Ma, W L Wang & F S Zhang. (2018) A heat flux model for rotary friction welding of 304 stainless steel. Materials Research Express 6:2, pages 026558.
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Lorenzo Donati, Enrico Troiani, Paolo Proli & Luca Tomesani. (2015) FEM Analysis and Experimental Validation of Friction Welding Process of 6xxx Alloys for the Prediction of Welding Quality. Materials Today: Proceedings 2:10, pages 5045-5054.
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F. F. Wang, W. Y. Li, J. L. Li & A. Vairis. (2014) Process parameter analysis of inertia friction welding nickel-based superalloy. The International Journal of Advanced Manufacturing Technology 71:9-12, pages 1909-1918.
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Longfei Nie, Liwen Zhang, Zhi Zhu & Wei Xu. (2014) Microstructure evolution modeling of FGH96 superalloy during inertia friction welding process. Finite Elements in Analysis and Design 80, pages 63-68.
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J.T. Xiong, J.L. Li, Y.N. Wei, F.S. Zhang & W.D. Huang. (2013) An analytical model of steady-state continuous drive friction welding. Acta Materialia 61:5, pages 1662-1675.
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Rui-di LI, Jing-long LI, Jiang-tao XIONG, Fu-sheng ZHANG, Ke ZHAO & Cheng-zhong JI. (2012) Friction heat production and atom diffusion behaviors during Mg-Ti rotating friction welding process. Transactions of Nonferrous Metals Society of China 22:11, pages 2665-2671.
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Shailesh K. Singh, Kamanio Chattopadhyay & Pradip Dutta. (2012) Friction Welding of Thixocast A356 Aluminium Alloy. Solid State Phenomena 192-193, pages 305-310.
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X. X. Zhang, B. L. Xiao & Z. Y. Ma. (2011) A Transient Thermal Model for Friction Stir Weld. Part II: Effects of Weld Conditions. Metallurgical and Materials Transactions A 42:10, pages 3229-3239.
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X. X. Zhang, B. L. Xiao & Z. Y. Ma. (2011) A Transient Thermal Model for Friction Stir Weld. Part I: The Model. Metallurgical and Materials Transactions A 42:10, pages 3218-3228.
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Wenya Li & Feifan Wang. (2011) Modeling of continuous drive friction welding of mild steel. Materials Science and Engineering: A 528:18, pages 5921-5926.
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A. Ambroziak, M. Winnicki, P. Laska, M. Lachowicz, M. Zwierzchowski & J. Leśniewski. (2011) Examination of Friction Coefficient in Friction Welding Process of Tubular Steel Elements. Archives of Metallurgy and Materials 56:4.
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Philip J. Withers & Michael Preuss. 2010. Metals Process Simulation. Metals Process Simulation 432 442 .
Hazman Seli, Ahmad Izani Md. Ismail, Endri Rachman & Zainal Arifin Ahmad. (2010) Mechanical evaluation and thermal modelling of friction welding of mild steel and aluminium. Journal of Materials Processing Technology 210:9, pages 1209-1216.
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M. Maalekian, E. Kozeschnik, H.P. Brantner & H. Cerjak. (2008) Finite Element Modeling of Orbital Friction Welding of Eutectoid Steel Bars. Metallurgical and Materials Transactions A 39:4, pages 844-852.
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