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Volume 34 Issue 04
Apr.  2008
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Journal of Beijing University of Aeronautics and Astronautics  > 2008  >  34(04): 431-434.
Li Xiaohui, Wang Su, Xia Caiyunet al. 304 stainless steel rotary-twin-focus laser-TIG hybrid welding[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(04): 431-434. (in Chinese)
Citation: Li Xiaohui, Wang Su, Xia Caiyunet al. 304 stainless steel rotary-twin-focus laser-TIG hybrid welding[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(04): 431-434. (in Chinese)
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304 stainless steel rotary-twin-focus laser-TIG hybrid welding

  • School of Mechanical Engineering and Automation, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • Received Date: 03 Apr 2007
  • Publish Date: 30 Apr 2008
    Abstract
  • In order to improve the laser-arc hybrid welding quality, the rotary-twin-focus laser-TIG(tungsten inert gas) hybrid welding was put forward, which is a new welding method that can improve the welding efficiency at the same time. With the rotary-twin-focus laser-TIG hybrid welding head designed by Beijing University of Aeronautics and Astronautics, a detailed experiment of rotary-twin-focus laser-TIG hybrid welding with different welding parameters was carried out on the 304 stainless steel plate, and the weld parameters infection for the weld appearance quality was analyzed concretely. The results indicate that the coupling effect of laser power and the welding current intensity are the main factors for efficient synergetic effect in rotary-twin-focus laser-TIG hybrid welding process; however the rotary-twin-focus laser rotary frequency has unapparent effect on the weld width and penetration. Compared with the laser welding and the TIG welding process, rotary-twin-focus laser-TIG hybrid welding with the rotary-twin-focus laser and arc efficient synergetic effect increases the welding heat sources efficiency effectively.

     

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  • [1] Bagger C, Olsen F O. Review of laser hybrid welding[J].Journal of Laser Applications, 2005,17(1):2-14[2] Tusek J, Suban M. Hybrid welding with arc and laser beam[J].Science and Technology of Welding and Joining,1999,4(5):308-311[3] 高明,曾晓雁,胡乾午,等.CO2激光-TIG复合焊接气体的保护方式[J].中国激光,2006,33(10):1422-1423 Gao Ming, Zeng Xiaoyan, Hu Qianwu, et al. Shielding gas method of CO2 laser-TIG hybrid welding[J]. Chinese Journal of Lasers,2006,33(10):1422-1423(in Chinese)[4] 许良红,彭云,田志凌,等.激光-MIG复合焊接工艺参数对焊缝形状的影响[J].应用激光,2006,26(1):5-9 Xu Lianghong,Peng Yun,Tian Zhiling, et al. The effect of laser-MIG hybrid welding parameters on the geometry of weld[J]. Applied Laser,2006,26(1):5-9(in Chinese)[5] 陈俐,董春林,吕高尚,等.YAG/MAG激光电弧复合焊工艺研究[J].焊接技术,2004,33(4):21-24 Chen Li, Dong Chunlin, Lü Gaoshang, et al. Research on YAG laser/MAG arc hybrid welding[J].Welding Technology,2004,33(4):21-24(in Chinese)[6] Wood B C, Palmer T A, Elmer J W. Comparison between keyhole weld model and laser welding experiments . US:Department of Energy, 2004.
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