铝合金T型接头双侧激光焊接气孔缺陷影响规律研究

杨志斌; 李浩哲; 王斌; 陈禹昕

doi:doi:10.3788/irla201847.0906004

红外与激光工程, 2018, 47 (9): 0906004, 网络出版: 2018-10-06

铝合金T型接头双侧激光焊接气孔缺陷影响规律研究

Study on the influence rule of porosity defects for double-sided laser beam welding of aluminum alloy T-joint

论文大纲

杨志斌 ^*李浩哲王斌陈禹昕

作者单位

大连交通大学材料科学与工程学院, 辽宁大连 116028

双侧激光焊接 T型接头铝合金气孔缺陷 double-sided laser beam welding T-joint aluminum alloy porosity defect

摘要

气孔缺陷是铝合金T型接头双侧激光焊接面临的主要问题, 基于其工艺特点, 文中系统研究了表面处理状态、光束入射角度、焊接速度、热输入和光束间距对气孔缺陷的影响规律。研究结果表明: 铝合金表面保留一定厚度的纯铝包覆层才能最大程度地降低气孔缺陷; 采用较大的光束入射角度和较高的焊接速度可以有效降低气孔缺陷, 主要原因是小孔上方金属流动趋势由对流变为流向小孔内部更有利于气泡的逃逸; 降低焊接热输入和增加光束间距均不利于降低气孔缺陷, 造成小孔形状和贯通性改变并引起熔池流动行为的改变是其本质原因, 保证双侧小孔对称和贯通才能利于气泡逸出并降低气孔缺陷。

Abstract

Porosity defect is the main problem for the double-sided laser beam welding of aluminum alloy T-joints. Based on its technology characteristics, the effects of the surface states, laser incident angles, welding speeds, heat inputs and laser distances on the porosity defects were studied in this work. The results indicate that the pure aluminium cladding layer is beneficial for reducing porosity defects. Using larger laser incident angle and welding speed are good for reducing porosity defects, the reason is that the fluid flow changes from convection to toward to keyhole, which can help pores escape from the weld pool. And, reducing heat input and increasing laser distance are bad for reducing porosity defects, the change of the keyhole shape and fluid flow are the essential reasons. It is necessary to ensure keyhole symmetry and pass-through, which can help the pores escape from the weld pool and reduce the number of the porosity defects.

参考文献

[1] Siqueira R H M, Capella A, Riva R, et al. Comparing mechanical behavior of aluminum welds produced by Laser Beam Welding (LBW), Friction Stir Welding (FSW) and riveting for aeronautic structures [J]. Welding International, 2016, 19: 1-7.

[2] Peng Jin, Zhang Wenjie, Wang Xingxing, et al. Numerical simulation of effect of filler wire melting and filling mode on molten pool in laser welding [J]. Infrared and Laser Engineering, 2018, 47(3): 0306005. (in Chinese)

[3] Zhang Xinge, Li Liqun, Chen Yanbin, et al. Process and mechanical properties of laser-resistance hybrid welding for aluminum alloy T-joint [J]. Infrared and Laser Engineering, 2010, 39(1): 138-142. (in Chinese)

[4] Sun Z Q, Chen R, Wu A R. New materials and technology of Chinese civil aircraft [C]//Proc ICAMCS, 2016: 926-930.

[5] Janasekaran S, Jamaludin M F, Muhamad M R, et al. Autogenous double-sided T-joint welding on aluminum alloys using low power fiber laser [J]. International Journal of Advanced Manufacturing Technology, 2017, 90: 3497-3505.

[6] Oliveira A C, Siqueira R H M, Riva R, et al. One-sided laser beam welding of autogenous T-joints for 6013-T4 aliminium alloy [J]. Material and Design, 2015, 65: 726-736.

[7] Enz J, Khomenko V, Riekehr S, et al. Single-sided laser beam welding of a dissimilar AA2024-AA7050 T-joint[J]. Mater Des, 2015, 76: 110-116.

[8] Tao W, Yang Z B, Chen Y B, et al. Double-sided fiber laser beam welding process of T-joints for aluminum aircraft fuselage panels: Filler wire melting behavior, process stability, and their effects on porosity defects[J]. Opt Laser Technol, 2013, 52: 1-9.

[9] Qi Junfeng, Niu Zhen, Zhang Dongyun, et al. Control of shaping of welds for CO2 laser welding shipbuilding T-section aluminum alloy [J]. Chinese Journal of Lasers, 2008, 35(2): 297-302. (in Chinese)

[10] Ma Xuyi, Gong Shuili, Zhang Jiuxing, et al. Influence of the welding conditions on weld defects in double-sided laser beam welded T-joints of Ti-6Al-4V alloy [J]. Chinese Journal of Lasers, 2016, 43(2): 0203006. (in Chinese)

[11] Yang Z B, Tao W, Li L Q, et al. Numerical simulation of heat transfer and fluid flow during double-sided laser beam welding of T-joints for aluminum aircraft fuselage panels [J]. Opt Laser Technol, 2017, 91: 120-129.

[12] Chen Kai, Yang Wuxiong, Huang Rui, et al. Porosity control of 1420 Al-Li alloy by dual-beam laser welding [J]. Infrared and Laser Engineering, 2010, 39(1): 133-137. (in Chinese)

[13] Ma Yinan, Tao Wang, Chen Yanbin. Laser spot welding of LF6 aluminum with double laser beams [J]. Infrared and Laser Engineering, 2014, 43(3): 707-711. (in Chinese)

[14] Lin R, Wang H P, Lu F, et al. Numerical study of keyhole dynamics and keyhole-induced porosity formation in remote laser welding of Al alloys [J]. International Journal of Heat and Mass Transfer, 2017, 108: 244-256.

杨志斌, 李浩哲, 王斌, 陈禹昕. 铝合金T型接头双侧激光焊接气孔缺陷影响规律研究[J]. 红外与激光工程, 2018, 47(9): 0906004. Yang Zhibin, Li Haozhe, Wang Bin, Chen Yuxin. Study on the influence rule of porosity defects for double-sided laser beam welding of aluminum alloy T-joint[J]. Infrared and Laser Engineering, 2018, 47(9): 0906004.

铝合金T型接头双侧激光焊接气孔缺陷影响规律研究

关于本站 Cookie 的使用提示

全站搜索

铝合金T型接头双侧激光焊接气孔缺陷影响规律研究

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索