Characteristics of droplet transfer during ultrasound-MAG hybrid welding

被引：0

作者：

Fan C. ^{[1
]}

Yao Q. ^{[1
,2
]}

Xie W. ^{[1
]}

Zhuang X. ^{[3
]}

Yang C. ^{[1
]}

Lin S. ^{[1
]}

机构：

[1] State Key Laboratory of Advanced Welding and Joining, Harbin Institute of Technology, Harbin

[2] China FAW Co., Ltd., R & D Center, Changchun

[3] South Sichuan Machinery Factory, Aerospace Science and Technology Corporation, Luzhou

来源：

| 1600年 / Harbin Research Institute of Welding卷 / 38期

关键词：

Droplet size; Droplet transfer; Transition frequency; Ultrasound-MAG hybrid welding;

D O I：

10.12073/j.hjxb.20151214004

中图分类号：

学科分类号：

摘要：

The droplet transfer behavior during Ultrasound-MAG welding of low carbon steel is investigated in this paper. The test mainly focused on the change of droplet transfer behavior in low carbon steel welding under the effect of ultrasonic. Through observation and analysis of the droplet transition process, the results show that ultrasonic can change the distribution range of droplet transfer, the short circuit transfer is more adaptive to the voltage and current, large drop transfer voltage is increased and the instability of the transition has been improved under the moderate current voltage. For different transitional forms, ultrasonic can increase the frequency of the droplet transfer, change the size and shape of the molten drop and the molten droplet can be transited to the molten pool with smaller size and higher frequency. Compared with the conventional MAG welding, the ultrasound-MAG welding current signal fluctuation is smaller and the droplet transfer process is more stable. This study is an important supplement to the development and application of ultrasonic assisted arc welding technology. © 2017, Editorial Board of Transactions of the China Welding Institution, Magazine Agency Welding. All right reserved.

引用

页码：11 / 15and31

页数：1520

共 6 条

[1] Kim Y.S., Eagar T.W., Metal transfer in pulsed current gas metal arc welding, Welding Journal, 72, 7, pp. 279s-287s, (1993)
[2] Shi Y., Liu X., Zhang Y.M., Et al., Analysis of metal transfer and correlated influences in dual-bypass GMAW of aluminum, Welding Journal, 87, 9, pp. 229-236, (2008)
[3] Tarasov N.M., Energy calculations of the process of separation of the electrode metal droplets under the effect of the pulse of the external magnetic field, Avt Svarka, 6, pp. 21-25, (1984)
[4] Sun Q., Yang C., Lin S., Et al., Research on melting metal behavior of ultrasonic-tungsten inert gas welding, Transactions of the China Welding Institution, 31, 3, pp. 41-44, (2010)
[5] Fan C., Xie W., Yang C., Et al., Characteristics of welding arc during ultrasound-MIG hybrid welding of aluminum alloy, Transactions of the China Welding Institution, 35, 1, pp. 5-8, (2014)
[6] Fan Y.Y., Yang C.L., Lin S.B., Et al., Ultrasonic wave assisted GMAW, Welding Journal, 91, 3, pp. 91s-99s, (2012)

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