Reducing residual distortion of thin-plate weldments by rotating extrusion

Jun Li; Jian-guo Yang; Hong-yuan Fang; Wen-feng Zhang

doi:10.1007/s11771-013-1558-z

Journal of Central South University ›› 2013, Vol. 20 ›› Issue (4) : 859 -865. DOI: 10.1007/s11771-013-1558-z

Article

Reducing residual distortion of thin-plate weldments by rotating extrusion

Jun Li 11558^,21558^,^a
, Jian-guo Yang 11558
, Hong-yuan Fang 11558
, Wen-feng Zhang 21558

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Abstract

A new method named rotating extrusion was developed to mitigate residual distortion of thin-plate weldments. The basic principle and characteristic of rotating extrusion as well as an efficient rotating extrusion device were introduced. Systematic trials were conducted to investigate the influence of several technological parameters including the distance between the extrusion tool and welding torch, the pressure acting on weldment, the dimension of the extrusion tool and its rotational speed on distortion control effect. Experimental results show that, as for 2A12T4 aluminum alloy weldment with 2 mm in thickness, 150 mm in width and 350 mm in length, when appropriate technological parameters are adopted, rotating extrusion can reduce its buckling deflection to below 3% of the original value. Implementing rotating extrusion during welding with an extrusion tool more than 100 mm away from the welding torch may achieve better distortion mitigation effect.

Keywords

welding distortion / thin plate / aluminum alloy / rotating extrusion

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Jun Li, Jian-guo Yang, Hong-yuan Fang, Wen-feng Zhang. Reducing residual distortion of thin-plate weldments by rotating extrusion. Journal of Central South University, 2013, 20(4): 859-865 DOI:10.1007/s11771-013-1558-z

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References

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[1]	LeeJ-S, RyuY-S, KimN-I, KimB-j, Kimy-k, KimM-hyun. Stud welding for fixation of cryogenic insulation of membrane tanks in LNG ship building [J]. Transactions of Nonferrous Metals Society of China, 2009, 19(s1): 271-275

[2]	SiegeleD, BrandM, VenezianoC. Numerical welding simulation of an aluminium automotive component [J]. Welding in the World, 2008, 52(1/2): 27-33

[3]	GannonL, LiuY, PeggN, SmithM. Effect of welding sequence on residual stress and distortion in flat-bar stiffened plates [J]. Marine Structures, 2010, 23(3): 385-404

[4]	AttarhaM J, Sattari-FarI. Study on welding temperature distribution in thin welded plates through experimental measurements and finite element simulation [J]. Journal of Materials Processing Technology, 2011, 211(4): 688-694

[5]	DengD, MurakawaH. Prediction of welding distortion and residual stress in a thin plate butt-welded joint [J]. Computational Materials Science, 2008, 43(2): 353-365

[6]	KohandehghanA R, SerajzadehS. Arc welding induced residual stress in butt-joints of thin plates under constraints [J]. Journal of Manufacturing Process, 2011, 13(2): 96-103

[7]	ConrardyC, HuangT D, HarwigD, DongP, KvidahlL, EvansN, TreasterA. Practical welding techniques to minimize distortion in lightweight ship structures [J]. Journal of Ship Production, 2006, 22(4): 239-247

[8]	LongH, GeryD, CarlierA, MaropoulosP G. Prediction of welding distortion in butt joint of thin plates [J]. Materials and Design, 2009, 30(10): 4126-4135

[9]	ZaeemM A, NamiM R, KadivarM H. Predicton of welding buckling distortion in a thin wall aluminum T joint [J]. Computational Materials Science, 2007, 38(4): 588-594

[10]	PavlovskyV I, MasubuchiKResearch in the U.S.S.R on residual stresses and distortion in welded structures [R], 1994New YorkWelding Research Council

[11]	XuW-l, FanC-l, FangH-y, TianX-tang. New development in welding thin-shell aluminum alloy structures with high strength [J]. China Welding, 2004, 13(1): 27-30

[12]	FanC-l, FangH-y, YangJ-g, LiMing. New technology to control welding stress and distortion with trailing impactive rolling [J]. Chinese Journal of Mechanical Engineering, 2004, 40(8): 87-90