摆动电弧窄间隙立向上GMAW焊缝成形

徐望辉; 林三宝; 杨春利; 范成磊

摆动电弧窄间隙立向上GMAW焊缝成形

哈尔滨工业大学先进焊接与连接国家重点实验室, 150001

基金项目: 国家自然科学基金资助项目(51275109)

计量
- 文章访问数: 325
- HTML全文浏览量: 24
- PDF下载量: 99
出版历程
- 收稿日期: 2014-02-11

Weld bead formation in oscillating arc narrow gap vertical-up GMAW process

State Key Laboratory of Advance Welding and Joining, Harbin Institute of Technology, Harbin 150001, China

摘要

摘要: 文中对摆动电弧窄间隙立向上GMAW工艺进行了研究.结果表明,窄间隙立向上焊缝表面中间凸起,而立向下焊缝中间下凹;摆动角度和摆动速度的增加均有利于焊缝中间凸起高度的降低,侧壁停留时间对焊缝中间凸起的影响较小;电弧在坡口中间摆动时单位移动轨迹长度上的电弧能量能够影响焊缝中间凸起高度,侧壁停留时的单位移动轨迹长度上的电弧能量则主要影响焊缝熔宽,摆动参数通过影响电弧能量的分布来影响焊缝熔宽和中间凸起高度.
- 摆动焊接 /
- 窄间隙焊接 /
- GMAW /
- 立焊
Abstract: The weld cross-section formation in oscillating arc narrow gap vertical GMAW was investigated and the effect of oscillating parameters on the wend cross-section formation was analyzed. The results show that the weld cross- section formation was characterized with convex surface during oscillating arc vertical-up GMAW, while it was concave during vertical-down GMAW. The increase in oscillating angle and oscillating speed was beneficial to the increase of weld width and reduction of convex height in oscillating arc narrow gap vertical-up GMAW, while the dwell time had little influence on the weld cross-section formation. The heat input per unit length in oscillating arc welding was divided into two parts which were input heat per unit length in oscillating process and in dwell process, respectively. The input heat per unit length in oscillating process could affect the convex height of weld cross-section, while that in dwell process could affect the weld width. The oscillating parameters controlled the weld cross-section formation by affecting the distribution of input heat in oscillating arc narrow gap vertical-up GMAW.
- oscillating arc welding /
- narrow gap welding /
- GMAW /
- vertical welding

HTML全文

参考文献(10)

[1]	撒世勇. 10CrNi5MoV钢厚板窄间隙熔化极气保焊研究[J].材料开发与应用, 2010, (1):13-15. Sa Shiyong.Narrow gap metal arc gas welding of 10CrNi5MoV steel thick plate[J]. Development and Application of Materials, 2010, (1):13-15.
[2]	吕冬,翟晓莉,韩鹏,等.新型EH36高强船板钢的气电立焊试验研究[J].焊接, 2007, (5):91-93. lü Dong, Zhai Xiaoli, Han Peng, et al. Experiments on electrogas welding of EH36 high strength hull plate[J]. Welding & Joing, 2007, (5):91-93.
[3]	胡存银,张富巨.窄间隙焊接的技术与经济特性分析[J].焊接技术, 2001, (2):47-48. Hu Cunyin, Zhang Fuju. Analyse on economy and technology of narrow gap welding. Welding Technology, 2001, (2):47-48.
[4]	赵博,范成磊,杨春利,等.窄间隙GMAW的研究进展[J].焊接, 2008, (2):11-15. Zhao Bo, Fan Chenglei, Yang Chunli, et al. Research process of narrow gap gas metal arc welding[J]. Welding & Joining, 2008, (2):11-15.
[5]	Wang Jiayou, Zhu Jie, Fu Ping, et al. Swing arc system for narrow gap GMA welding[J]. Isij International, 2012, 52(1):110-114.
[6]	王加友,国宏斌,杨峰.新型高速旋转电弧窄间隙MAG焊接[J].焊接学报, 2005, 26(10):65-67. Wang Jiayou, Guo Hongbin, Yang Feng. A new rota ting arc process for narrow gap MAG weld ing[J]. Transactions of China Welding Institution, 2005, 26(10):65-67.
[7]	郭宁,林三宝,张亚奇,等.旋转电弧横向GMAW接头组织及成形特点[J].焊接学报, 2009, 30(8):101-104. Guo Ning, Lin Sanbao, Zhu Yaqi, et al. Microstructure and formation characteristics of rotating arc horizontal GMAW joint[J]. Transactions of China Welding Institution, 2009, 30(8):101-104.
[8]	Lassaline E, Zajaczkowski B, North T H. Narrow groove twin-wire GMAW of high-strength steel[J]. Welding Journal, 1989, 68(9):53-58.
[9]	Xu Wanghui, Lin Sanbao, Fan Chenglei, et al. Feasibility study on tandem narrow gap GMAW of 65 mm thick steel plate[J]. China Welding, 2012, 21(3):7-11.
[10]	王加友,朱杰,苏荣近,等.摇动电弧窄间隙熔化极气体保护立向焊接方法:中国, ZL201110201702.02[P]. 2011-12-14.

施引文献

资源附件(0)

计量

文章访问数: 325
HTML全文浏览量: 24
PDF下载量: 99
被引次数: 0

摆动电弧窄间隙立向上GMAW焊缝成形

计量

出版历程

Weld bead formation in oscillating arc narrow gap vertical-up GMAW process

计量

出版历程

目录