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磁控电弧焊接工艺在非熔化极气体保护焊中的应用 被引量:3

Application of non-consumable gas shielded arc welding controlled by magnetic field
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摘要 针对非熔化极气体保护焊,介绍了作用于焊接过程中的平行磁场、横向磁场、纵向磁场、双尖角磁场和旋转磁场的特点及磁场发生装置的组成,分析了磁偏弧工艺、磁摆弧工艺、均匀纵向磁场作用下的磁旋弧工艺、非均匀纵向磁场作用下的磁旋弧工艺、旋转磁场作用下的磁旋弧工艺、磁再压缩技术等国内外典型的磁控电弧焊接工艺的基本原理、应用范围及存在的问题。并对焊接电弧外形的变化和运行机制,焊接电弧外加磁场强度的变化关系进行了研究。 The characteristics of various magnetic fields such as longitudinal magnetic, transverse magnetic, parallel magnetic, rotational magnetic and the composition of magnetic field generator were introduced for non-consumable gas arc shielded welding. The basic principle, applied range and problems of several typical magnetically controlled welding processes were analyzed, the new phenomenon of the welding arc which effected by the additional magnetic field was studied, and the relationships between the welding arc and intensity of the additional magnetic field was analyzed. The effects of magnetic field intensity, initial arc length, electrode size and vertex angle on the deflection of the tungsten welding arc in a magnetic field were studied. Definition of a stability index which unified the effects of arc current, magnetic field intensity and initial arc length was found helpful in comparing experimental data with previously developed predictive expressions of magnetic arc deflection.
作者 华爱兵 陈树君 殷树言 刘忠保
机构地区 北京工业大学机电学院
出处 《焊接》 北大核心 2007年第2期26-30,共5页 Welding & Joining
关键词 磁场 电弧 非熔化极气体保护焊 magnetic field, arc, non-consumable gas shielded arc welding
分类号 TG403 [金属学及工艺—焊接]
  • 相关文献

参考文献16

  • 1Jayarajan T N,Jackson C E.Magnetic control of gas tungsten-arc welding process[J].Welding Journal,1972:377-s-385-s.
  • 2Hicken G K,Jackson C E.The effects of applied magnetic fields on welding arcs[J].Welding Journal,1966 (11):515-s-525-s.
  • 3Ando,Nishikawa,Yamanouchi.Effects of magnetic field on bead formation in TIG arc welding[J].Journal of Japan Welding Society,1968(3):43 -48.
  • 4张九海,王其隆,韦伟平.小电流TIG焊电弧磁控特性的研究[J].焊接学报,1990,11(1):43-49. 被引量:15
  • 5Hicken G K,Stucki N D,Randall H W.Application of magnetically controlled welding arcs[J].Welding Journal,1976.264-267.
  • 6吴启东.窄间隙钨极焊接电弧的磁场控制[J].焊接学报,1983,4(4).
  • 7Tseng Chao-Fang,Warren,Savage F.The effect of arc os-cillation[J].Welding Journal,1971 (12):777-786.
  • 8Kou S,Le Y.Improving weld quality by low frequency Arcoscillation[J].Welding Journal,1985 (3):51-55.
  • 9卢烨,周万盛,雅文萃.磁控电弧摆动对铝合金焊缝结晶裂纹的影响[J].焊接学报,1991,12(2):65-72. 被引量:9
  • 10Wienecke R,Naturforsch Z.The characters of arc in a longitudinal magnetic field[J].Applied Physics,1963 (3):1151-1154.

二级参考文献7

  • 1孙杏风,等离子物理基础,1983年
  • 2团体著者,磁场焊接译文集,1975年
  • 3Jayarajan,Jackson.Magnetic control of gas tungsten arc welding process[J].Welding Journal,1972(9):377-385.
  • 4Hicken,Jackson.The Effects of Applied Magnetic Fields on Welding Arcs[J].Welding Journal,1966(11):515-525.
  • 5Ando,Nishikawa,Yamanouchi.Effects of Magnetic Field on Bead Formation in TIG Arc Welding[J].Journal of Japan Welding Society,1968(3):43-48.
  • 6Chao-Fang Tseng,Warren F.Savage.The Effect of Arc Oscillation[J].Welding Journal,1971(12):777-786.
  • 7S. Kou,Y. Le. Alternating grain orientation and weld solidification cracking[J] 1985,Metallurgical Transactions A(10):1887~1896

共引文献34

同被引文献29

引证文献3

二级引证文献6

焊接
2007年 第2期

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