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铝合金电阻点焊质量特征的提取与分析 被引量:6

Acquisition and analysis of resistance spot welding quality characteristics
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摘要 为了建立在线电阻点焊质量检测系统,研究了用中频逆变直流点焊机焊接铝合金5182时动态电极位移和压力的特征,讨论了相关质量特征的焊接过程监控策略.结果表明,在焊接开始阶段,电极位移和压力均迅速上升,其后上升速率减缓.电极位移和压力的上升速率均正比于焊接电流,且当喷溅发生时,二者均有一个突降过程.在焊接过程中,即使熔核达到足够大的尺寸,电极位移上升速率也不会下降至零.当产生较大的焊点熔核时,电极压力曲线会出现一个峰值. In order to develop online resistance spot welding quality monitoring system,the dynamic characteristics of electrode force and displacement were studied during resistance spot welding of aluminum alloy 5182 using a medium frequency direct current welder,and strategies for process monitoring and control based on the characteristics were discussed.The results show that both displacement and force of electrode increase rapidly at the beginning of the welding stage and then at a reducing rate.Rates of increase in displacement and force of electrode are proportional to welding current.Both displacement and force of electrode experience a sudden drop when weld metal expulsions occur.The rate of increase in electrode displacement is not reach zero during welding even for joints with sufficient nugget diameter,but electrode force peaks when a large nugget appears.
作者 冀春涛 罗贤星 邓黎鹏
机构地区 南昌航空大学材料科学与工程学院
出处 《焊接学报》 EI CAS CSCD 北大核心 2009年第6期43-46,共4页 Transactions of The China Welding Institution
基金 江西省教育厅科学技术项目(GJJ09201)
关键词 电阻焊 数据采集 电极位移 电极压力 焊接质量监控 resistance welding data acquisition electrode displacement electrode force weld quality monitoring
分类号 TG453 [金属学及工艺—焊接]
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参考文献7

  • 1Tang H, Hou W, Hu S J, et al. Force characteristics of resistance spot welding of steels [ J ]. Welding Journal, 2000, 79 (7) : 175s - 183s.
  • 2Fujimoto K, Nakata S, Nishikawa M. Design and construction of a loading system for resistance welding and its dynamic properties: Optimization of the loading system in high current density spot welding with a short energizing time ( 1st Report)[J]. Welding International, 1997, 11(5): 371-377.
  • 3罗贤星,邓黎鹏,张晨曙,冀春涛.铝合金点焊过程中影响因素的特征判识与熔核尺寸的评估[J].焊接学报,2005,26(7):37-43. 被引量:16
  • 4Beatson E V. An introduction to quality control systems in resistance welding[C]//Resistance Welding Control and Monitoring. Cambrdge, UK: The Welding Institute, Abington Hall, 1977: 2- 7.
  • 5Janota M. The relationship between thermal expansion and the growth of a resistance spot weld[ C]//The Third International Conference on Advances in Welding Processes. Harmgate, UK: The Welding Institute, 1974: 21-26.
  • 6Cho H S, Chun D W. A microprocessor-based electrode movement controller for spot weld quality assurance [J]. IEEE Transactions on Industrial Electronics, 1985, 32 (3): 234- 238.
  • 7Chien C S, Kannatey Asibu, Jr E. Investigation of monitoring systems for resistance spot welding [J]. Welding Journal, 2002, 81 (9): 195s- 199s.

二级参考文献5

  • 1Robert W , Messler Jr, Min Jou. Review of control systems for resistance spot welding: past and current practices and emerging trends[J]. Science and Technology of Welding and Joining,1996,1(1):1-9.
  • 2Xu l, Khan J A. Nugget growth model for aluminum alloys during resistance spot welding[J].Welding Journal, 1999, 78(11): 367s-372 s.
  • 3Tasi C L , Dai W L, Dickinson D W, et al . Analysis and development of a real-time control methodology in resistance spot welding [J].Welding Jouranl,1991,70(12): 339 s-351 s.
  • 4关桥. 航空制造工程手册:焊接分册[M]. 北京:航工工业出版社,1996.
  • 5HB/Z77-84: 铝合金电阻点焊和缝焊工艺[S].

共引文献15

同被引文献29

引证文献6

二级引证文献8

焊接学报
2009年 第6期

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