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TIG焊和PAW焊中活性剂对焊缝熔深的影响 被引量:4

EFFECT OF ACTIVATING FLUX ON WELD DEPTH OF PENETRATION DURING TIG AND PLASMA ARC WELDING
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摘要 针对常规TIG焊生产效率低、熔深小等问题 ,研究了TIG焊和PAW焊中应用活性剂对焊缝熔深的影响。结果表明 ,应用活性剂后 ,在同样的参数下 ,同传统TIG相比 ,活性剂能够大幅度提高不锈钢、铝合金和钛合金的焊缝熔深。对于PAW焊 ,熔深也有增加 ,但是增加的幅度不如TIG效果明显 ,但对焊缝成形有很好的改善。同时 ,活性剂对铝合金焊接背面能够起到保护作用。对于钛合金 ,活性剂除了增加焊缝的熔深外 。 Traditional TIG welding is known as its low productivity and small weld depth of penetration. The effect of the activating flux on weld depth of penetration during TIG welding and plasma arc welding is investigated in this paper. The results show that in comparison with the traditional TIG welding with same welding specification, the weld penetration is greatly increased after applying the activating flux on stainless steel, aluminum alloy and titanium alloy. However, it is not obvious in penetration increase for PAW through using of flux compared with TIG welding, but significant improvement in weld shape has been found in PAW. At the same time, the activating flux plays significant role on weld back protection in TIG welding of aluminum alloy. In addition to increasing the weld penetration for titanium alloy, the porosities can be reduced or eliminated by applying the activating flux.
作者 林三宝 杨春利 刘凤尧 苏生 吉桂琴
机构地区 哈尔滨工业大学焊接国家重点实验室 哈尔滨电机厂有限责任公司
出处 《焊接》 2002年第9期20-22,共3页 Welding & Joining
基金 哈尔滨工业大学校基金(H.I.T.2001.20) 现代焊接生产技术国家重点实验室开放课题和黑龙江省留学回国基金(LC01714)资助。
关键词 TIG焊 PAW焊 活性剂 焊缝熔深 TIG welding, plasma Arc welding, activating flux, depth of penetration
分类号 TG444.7 [金属学及工艺—焊接]
  • 相关文献

参考文献5

  • 1[1]Paton B E. The weldability steels that have been refined by remelting. Automatic Welding, 1974, 27 (6): 1 ~ 4
  • 2[2]Lucas W, HOWSE D. Activating flux - increasing the perform ance and productivity of the TIG and plasma processes. Welding and Metal Fabrication, 1996( 1): 11 ~ 17
  • 3[3]Paskell T, LUNDIN C. GTAW flux increases weld joint penetra tion. Welding Journal, 1997 (4): 57 ~ 62
  • 4[4]Heiple C R, ROPER J R. Mechanism for minor element effect on TIG fusion zone geometry. Welding Journal, 1982(4) :97s ~ 102s
  • 5[5]Mechev V S. Mechanism of contraction of the welding arc in the presence of electronegative particles. Welding International, 1993,7(2):154~156

同被引文献39

  • 1樊丁,张瑞华,田中学,中田一博,牛尾诚夫.YAG laser welding with surface activating flux[J].China Welding,2003,12(2):83-86. 被引量:8
  • 2黄勇,樊丁,张涵.表面活性剂对钛合金A-TIG焊熔深的影响[J].稀有金属材料与工程,2006,35(10):1586-1588. 被引量:15
  • 3Howse D S, Lucas W. An investigation into arc constriction by active fluxes for TIG(A - TIG) welding[ J]. Science and Technology of Welding and Joining ,2000,5 (3) : 189 - 193.
  • 4Lucas W. Activating flux - improving the performance of the TIG process [ J ]. Welding and Metal Fabrication, 2000,68 (2) :7 - 10.
  • 5Kazakov Yu V, Koryagin K B. The efficiency of activating fluxes in manual argon - arc welding [ J ]. Welding international ,2002,16( 11 ) :886 - 889.
  • 6Paskell T, Lundin C. GTAW flux increase weld joint penetration[ J]. Welding Jounal. 1997,76 (4) :57 - 62.
  • 7Paulo J. Modenesi, Eusta - quio R. Apolina - rio, Iaci M. Pereira . TIG welding with single - component fluxes [ J ]. Journal of Materials Processing Technology, 2000,99 : 260 - 265.
  • 8Kuo M, Sun Z, Pan D. Laser welding with activating flux [ J ]. Science and Technology of Welding and Joining, 2001,6 (1) :17 -22.
  • 9Heiple C R, Rober J R. Mechanism for minor element effect on GTA fusion zone geometry [ J ]. Welding Journal, 1982, 61:97 - 102.
  • 10PASKELL T, LUNDIN C, CASTNER H. GTAW flux increases weld joint penetration[J]. Welding Journal, 1997, 76 (4): 57-62.

引证文献4

二级引证文献37

焊接
2002年 第9期

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