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激光深熔焊接小孔效应的理论和试验研究 被引量:8

A theoretical and experimental investigation on keyhole effects in deep penetration laser welding
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摘要 本文采用理论和试验相结合的方法系统研究了激光深熔焊接GG17玻璃时的小孔效应。首先采用高速摄影的方法清晰、完整地观测到了激光深熔焊接GG17玻璃时小孔的形状,并通过实验研究了聚焦光斑尺寸、离焦量、焊接速度等焊接工艺参数对小孔尺寸和形状的影响。然后,论文根据实验得到的小孔形状,通过曲线拟合的方法得到小孔前后沿孔壁的曲线方程,再按照几何光学原理,分析了激光在小孔孔壁上的多次反射吸收情况,并由此计算出了小孔孔壁通过多次反射吸收的激光功率密度分布情况。最后,建立了一个分层圆柱体面热源传热模型,在综合考虑热传导和熔池对流换热的基础上,计算了小孔周围的温度场和流场,求出了小孔孔壁上的热流密度分布,并与小孔孔壁吸收的激光功率密度进行了比较。 The keyhole effects in deep - penetration laser welding of GG17 glass are theoretically and experimentally studied in this paper. First of all, a keyhole can be clearly observed by a high speed camera, then the effects of such parameters as focal spot, focal position and welding speed on the shape and size of the keyhole are investigated. Secondly, the equations of the front and rear wall of the keyhole can be obtained by the method of polynomial fitting, then the laser intensity absorbed by the keyhole wail through Fresnel absorption can be calculated. Finally, on the basis of considering conduction and convection in the welding pool, a model with a cylinder surface heat source has been developed to calculated the temperature field and the flow field around the keyhole, the heat flux on the keyhole wall can then be obtained and a comparison between the heat flux and the laser intensity absorbed by the keyhole wall has been made.
作者 金湘中 张屹 李力钧
机构地区 湖南大学激光研究所
出处 《应用激光》 CSCD 北大核心 2002年第2期193-198,共6页 Applied Laser
关键词 激光焊接 小孔效应 试验研究 温度场 流场 热流密度 laser welding, keyhole effects
分类号 TG456.7 [金属学及工艺—焊接]
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参考文献5

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同被引文献47

  • 1刘建华,李志远,胡伦骥,贺礼,张立文.激光深熔焊传热模型的研究[J].激光技术,1995,19(1):10-14. 被引量:9
  • 2张鹏贤,陈剑虹,杜文江.基于焊点表面图像处理的点焊质量监测[J].焊接学报,2006,27(12):57-60. 被引量:13
  • 3蔡田海.硅外延层解理面缺陷腐蚀坑的观察及初步分析.物理学报,1980,29(2):265-268.
  • 4陈志恭.硅片制备中的损伤问题.物理学报,1999,14(5):285-290.
  • 5Bismayer U, Brinksmeier E, Guttler B, et al. Measure ment of subsurface damage in silicon wafers. Precision En- gineering, 1994, 16(2): 139-143.
  • 6Zarudi I, Zhang L C. Subsurface damage in single crystal silicon due to grinding and polishing. Journal of Materials Science Letters, 1996, 15: 586-58.
  • 7Zarudi I, Zhang L C. Effect of ultraprecision grinding on the microstructure change in silicon monocrystals. Journal of Materials Processing Technology, 1998, 84: 149-158.
  • 8Xiangzhong Jin, Lijun Li, Yi Zhang. A heat transfer model for deep penetration laser welding based on an actual keyhole [J].Int. J. Heat and Mass Transfer, 2003, 46(1):15-22
  • 9R. Peretz. Workpiece temperature distribution for deep penetration welding with high energy focused beams [J]. Optics and Lasers in Engineering, 1986/1987, 7(2) :69-81
  • 10A. Kaplan. A Model of deep penetration laser welding based oncalculation of the keyhole profile[J]. J. Phys. D: Appl.Phys. , 1994, 27(9) :1805-1814

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应用激光
2002年 第2期

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