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Experimental Investigations of Axial Force Monitoring and Control for Friction Stir Welding Process

Experimental Investigations of Axial Force Monitoring and Control for Friction Stir Welding Process
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摘要 Friction stir welding( FSW) is a solid-state welding process that utilizes a rotating tool to induce gross material plastic deformation and join two parts together. A large number of studies have indicated that axial force control can be used to achieve good welding quality. However,in the welding process,due to workpiece's geometry error,improper clamping and other process variations,the axial force can vary significantly and produce welding defects.The control of force in the process of FSW is investigated. At first,the development and evaluation of a closed-loop control system is described,which is equipped with a custom real-time wireless force dynamometer for FSW. Then,an axial force controller is designed based on nonlinear force controllers for FSW. Experimental validations are carried out on an FSW platform. The experimental results demonstrate that the controller maintains the constant axial force and shows desirable dynamic behavior, even when the disturbance is encountered during the welding process. Friction stir welding( FSW) is a solid-state welding process that utilizes a rotating tool to induce gross material plastic deformation and join two parts together. A large number of studies have indicated that axial force control can be used to achieve good welding quality. However,in the welding process,due to workpiece's geometry error,improper clamping and other process variations,the axial force can vary significantly and produce welding defects.The control of force in the process of FSW is investigated. At first,the development and evaluation of a closed-loop control system is described,which is equipped with a custom real-time wireless force dynamometer for FSW. Then,an axial force controller is designed based on nonlinear force controllers for FSW. Experimental validations are carried out on an FSW platform. The experimental results demonstrate that the controller maintains the constant axial force and shows desirable dynamic behavior, even when the disturbance is encountered during the welding process.
出处 《Journal of Donghua University(English Edition)》 EI CAS 2017年第4期498-502,共5页 东华大学学报(英文版)
基金 Action Plan for Scientific and Technological Innovation of Shanghai,China(No.16DZ0502202) National Natural Science Foundation of China(No.51305272)
关键词 friction stir welding(FSW) dynamitic force measure axial force control disturbance rejection friction stir welding (FSW) -dynamitic force measure axial force control disturbance rejection
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  • 1金军兵,王智祥,刘雪峰,谢建新.均匀化处理对AZ91镁合金组织和力学性能的影响[J].金属学报,2006,42(10):1014-1018. 被引量:51
  • 2ZHANG Hua,Wu Huiqiang,Huang Jihua,LIN Sanbao,WU Lin.Effect of welding speed on the material flow patterns in friction stir welding of AZ31 magnesium alloy[J].Rare Metals,2007,26(2):158-162. 被引量:1
  • 3夏鹏举,蒋百灵,张菊梅,张继源,袁森.Mg-Al系镁合金离异共晶β相的研究[J].特种铸造及有色合金,2007,27(5):360-362. 被引量:32
  • 4THOMAS W M,NICHOLAS E D,NEEDHAM J C,MURCH M G, TEMPLE-SMITH P, DAWES C J. Friction stir butt welding: US 5460317 [P]. 1995.
  • 5RUSSELL M J, SHERCLIFF H R. Analytical modelling of microstructure development in friction stir welding [C]//Proceedings of the First International Symposium on Friction Stir Welding. Thousand Oaks,California,USA,1999.
  • 6ATHARIFAR H, LIN D, KOVACEVIC R. Numerical and experimental investigations on the loads carried by the tool during friction stir welding [J]. Journal of Materials Engineering and Performance,2009,18(4): 339-350.
  • 7CAVALIERE P, CAMPANILE G, PANELLA F, SQUILLACE A. Effect of welding parameters on mechanical and microstructural properties of AA6056 joints produced by friction stir welding [J]. Journal of Materials Processing Technology,2006,180: 263-270.
  • 8URSO G D,CERETTI E,GIARDINI C,MACCARINI G. The effect of process parameters and tool geometry on mechanical properties of friction stir welded aluminium butt joints [J]. International Journal of Material Forming,2009,2(1): 303-306.
  • 9ARORA K S, PANDEY S, SCHAPER M, KUMAR R. Effect of process parameters on friction stir welding of aluminum alloy 2219-T87 [J]. International Journal of Advanced Manufacturing Technology,2010,50: 941-952.
  • 10KUMAR K,KAILAS S V. On the role of axial load and the effect of interface position on the tensile strength of a friction stir weldedaluminium alloy [J]. Materials & Design,2008,29(4): 791-797.

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