Study on microstructure and mechanical properties of 6061 aluminum alloy prepared by oscillating laser-arc hybrid welding

[1] Bumgardner C H, Croom B P, Song N N, Et al., Low energy electroplasticity in aluminum alloys, Materials Science and Engineering:A, 798, (2020)

[2] Cai Chuang, Xie Jia, Liu Zhijie, Et al., Welding characteristics and porosity control of weaving laser-MIG hybrid welding of aluminum alloys, Chinese Journal of Lasers, 48, 18, pp. 17-26, (2021)

[3] Enz J, Kumar M, Riekehr S, Et al., Mechanical properties of laser beam welded similar and dissimilar aluminum alloys[J], Journal of Manufacturing Processes, 29, pp. 272-280, (2017)

[4] Chen Jicheng, Chen Xiaomei, Chang Yiting, Et al., Melt flow and thermal transfer of welding pool during static magnetic field supported deep-penetration laser beam welding of 5056 aluminum alloy, Transactions of the China Welding Institution, 42, 3, pp. 63-69, (2021)

[5] Song M J, Wu L S, Liu J M, Et al., Effects of laser cladding on crack resistance improvement for aluminum alloy used in aircraft skin, Optics & Laser Technology, 133, (2021)

[6] Li S R, Mi G Y, Wang C M., A study on laser beam oscillating welding characteristics for the 5083 aluminum alloy: Morphology, microstructure and mechanical properties[J], Journal of Manufacturing Processes, 53, pp. 12-20, (2020)

[7] Tao W, Yang S L., Weld zone porosity elimination process in remote laser welding of AA5182-O aluminum alloy lap-joints, Journal of Materials Processing Technology, 286, (2020)

[8] Katayama S, Naito Y, Uchiumi S, Et al., Physical phenomena and porosity prevention mechanism in laser-arc hybrid welding, Welding International, 21, 1, pp. 25-31, (2007)

[9] Zhang Chen, Spectrum diagnostic of plasma and joint performance improving mechanism of laser-arc hybrid welding of aluminium alloys, (2014)

[10] Fetzer F, Sommer M, Weber R, Et al., Reduction of pores by means of laser beam oscillation during remote welding of AlMgSi[J], Optics and Lasers in Engineering, 108, pp. 68-77, (2018)

[1] Bumgardner C H, Croom B P, Song N N, Et al., Low energy electroplasticity in aluminum alloys, Materials Science and Engineering:A, 798, (2020)

[2] Cai Chuang, Xie Jia, Liu Zhijie, Et al., Welding characteristics and porosity control of weaving laser-MIG hybrid welding of aluminum alloys, Chinese Journal of Lasers, 48, 18, pp. 17-26, (2021)

[3] Enz J, Kumar M, Riekehr S, Et al., Mechanical properties of laser beam welded similar and dissimilar aluminum alloys[J], Journal of Manufacturing Processes, 29, pp. 272-280, (2017)

[4] Chen Jicheng, Chen Xiaomei, Chang Yiting, Et al., Melt flow and thermal transfer of welding pool during static magnetic field supported deep-penetration laser beam welding of 5056 aluminum alloy, Transactions of the China Welding Institution, 42, 3, pp. 63-69, (2021)

[5] Song M J, Wu L S, Liu J M, Et al., Effects of laser cladding on crack resistance improvement for aluminum alloy used in aircraft skin, Optics & Laser Technology, 133, (2021)

[6] Li S R, Mi G Y, Wang C M., A study on laser beam oscillating welding characteristics for the 5083 aluminum alloy: Morphology, microstructure and mechanical properties[J], Journal of Manufacturing Processes, 53, pp. 12-20, (2020)

[7] Tao W, Yang S L., Weld zone porosity elimination process in remote laser welding of AA5182-O aluminum alloy lap-joints, Journal of Materials Processing Technology, 286, (2020)

[8] Katayama S, Naito Y, Uchiumi S, Et al., Physical phenomena and porosity prevention mechanism in laser-arc hybrid welding, Welding International, 21, 1, pp. 25-31, (2007)

[9] Zhang Chen, Spectrum diagnostic of plasma and joint performance improving mechanism of laser-arc hybrid welding of aluminium alloys, (2014)

[10] Fetzer F, Sommer M, Weber R, Et al., Reduction of pores by means of laser beam oscillation during remote welding of AlMgSi[J], Optics and Lasers in Engineering, 108, pp. 68-77, (2018)