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Interpretation of Laser Weld Penetration and Welding Phenomena (Invited Paper) 被引量:8

Interpretation of Laser Weld Penetration and Welding Phenomena(Invited Paper)
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摘要 Deeply penetrated welds can be produced with high-power-density lasers.Thus the factors affecting laser weld penetration,laser-induced plume behavior and the interaction between a laser beam and a plume,keyhole behavior,melt flows in the molten pool,and the generation and prevention of bubbles and porosity were investigated.Consequently,the effects of plasma and plume on the weld penetration were interpreted in CO2 and fiber lasers welding,respectively.The formation of spattering,underfilled beads,and humping was understood.It was confirmed that porosity was easily formed at high powers and low welding speeds due to the generation of many bubbles from the tip of a keyhole. Deeply penetrated welds can be produced with high-power-density lasers. Thus the factors affecting laser weld penetration,laser-induced plume behavior and the interaction between a laser beam and a plume,keyhole behavior,melt flows in the molten pool,and the generation and prevention of bubbles and porosity were investigated. Consequently,the effects of plasma and plume on the weld penetration were interpreted in CO2 and fiber lasers welding,respectively. The formation of spattering,underfilled beads,and humping was understood. It was confirmed that porosity was easily formed at high powers and low welding speeds due to the generation of many bubbles from the tip of a keyhole.
作者 Seiji Katayama Yousuke Kawahito
机构地区 Joining and Welding Research Institute
出处 《中国激光》 EI CAS CSCD 北大核心 2009年第12期3160-3166,共7页 Chinese Journal of Lasers
关键词 激光焊接技术 激光诱导 二氧化碳 激光器 laser welding CO2 laser fiber laser laser welding phenomena weld penetration
分类号 U463.212 [机械工程—车辆工程] TN24 [电子电信—物理电子学]
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参考文献26

  • 1S. Katayama. New Developments in Advanced Welding[M]. Ahmed N: 2005, Cambridge England, Woodhead Publishing Limited, p. 158-197.
  • 2Y. Kawahito, K. Kinoshita, S. Katayama et al.. Visualization of interaction between laser beam and YAG-laser-induced plume [C]. ICALEO 2005 Congress Proceedings, LIA, 2005, 98:920-928.
  • 3Y. Kawahito, M. Mizutani, S. Katayama. Elucidation of highpower fiber laser welding phenomena of stainless steel and effect of factors on weld geometry [J]. J. Phys. D: Appl. Phys. , 2007, 40 : 5854-5859.
  • 4S. Katayama, N. Seto, J. D. Kim et al.. Effect of nitrogen on laser weldability of aluminium alloys [C]. ⅡW, 1999,ⅡW Doc No. Ⅸ-1949-99.
  • 5N. Seto, S. Katayama, A. Matsunawa. High-speed simultaneous observation of plasma and keyhole behavior during high power CO2 laser welding: Effect of shielding gas on porosity formation [J]. J. Laser Applications, 2000, 12(6) :245-250.
  • 6Y. Kawahito, K. Kinoshita, N. Matsumoto et al.. Interaction between laser beam and plasma/plume induced in welding of stainless steel with ultra-high power density fiber laser [J]. Q. J. Jpn. Weld. Soc. , 2007, 25(3) :461-467.
  • 7S. Katayama, C. D. Lundin. Laser welding of aluminum alloy 5456 -laser weldability of aluminum alloys (Report Ⅰ ) [J]. J. Light Metal Welding and Construetion, 1991, 29(7) :295-307.
  • 8S. Katayama, C. D. Lundin. Laser welding of commercial aluminum alloys laser weldability of aluminum alloys (Report Ⅱ ) [J]. J. Light Metal Welding and Construction, 1991, 29(8) : 349-360.
  • 9A. Matsunawa, K. Kojima, S. Katayama. CO2 laser weldability of aluminum alloys (Report Ⅰ ) effect of welding conditions on melting characteristics [J]. J. Light Metal Welding and Construction, 1997, 35(10) :461-472.
  • 10S. Katayama, Y. Kawahito, K. Kinoshita et al.. Weld penetration and phenomena in 10 kW fiber laser welding [C]. ICALEO 2007 Congress Proceedings (Proc. 26th International Congress on Applications of Lasers & Electro-Optics), Orlando, LIA, 2007, 100:353-359.

同被引文献49

引证文献8

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中国激光
2009年 第12期

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