厚板铝合金磁场辅助激光摆动焊接工艺研究

采用10 000 W光纤激光器开展磁场辅助激光摆动焊接10 mm厚6061-T6铝合金的工艺试验。利用超景深显微镜和扫描电子显微镜(SEM)分析焊缝截面的宏观形貌和微观组织形貌。观察到在磁场辅助激光摆动焊接的作用下，焊接接头的下塌、飞溅和凹坑等缺陷得到了明显抑制。进而通过高速摄像机对焊接过程中熔池和小孔的行为特征进行了直接观测，观察到磁场有稳定磁场流动的作用。然后进行了X射线探伤测试了焊缝的气孔率，200 mT磁场辅助激光摆动焊接的气孔率最小，能达到0.856%。最后进行了拉伸性能测试，磁场辅助激光摆动焊接的拉伸强度最高能达到318.85 MPa。

Abstract

A 10 000 W fiber laser was used to carry out the process experiment of magnetic field assisted laser swing welding of 10 mm thick 6061-T6 aluminum alloy. Ultra-depth-of-field microscopy and scanning electron microscopy (SEM) were used to analyze the macro-morphology and micro-structure of the weld section. Under the action of magnetic field assisted laser swing welding, the defects such as sagging, spattering and pitting of welded joints are obviously restrained. Then , the behavior characteristics of the molten pool and the small holes during the welding process were directly observed by high-speed camera, and it was observed that the magnetic field has the effect of stabilizing the flow of the magnetic field. Then X-ray flaw detection was carried out to test the porosity of the weld. The porosity of the 200mT magnetic field-assisted laser swung welding was the smallest, which could reach 0.856%. Finally, the tensile property test was carried out , and the tensile strength of magnetic field-assisted laser swing welding can reach 318.85 MPa at the highest.

参考文献

[1] 肖荣诗,陈铠,左铁钏.高强铝合金激光焊接新进展［J］.应用激光,2002(2):206-208.

[2] LI S, WANG J, YANG S L, et al. Study on porosity defects of aluminium alloy in laser-MIG hybrid welding［J］. Applied Laser, 2013, 33(6): 595-600.

[3] YU Y C, WANG C M, HU X Y, et al. Porosity in fiber laser formation of 5A06 aluminum alloy［J］. Journal of Mechanical Science and Technology, 2010, 24(5): 1077-1082.

[4] DEVINCENT S M, DEVLETIAN J H, GEDEON S A. Weld properties of the newly developed 2519-T87 aluminum armor alloy［J］. Welding Journal (Miami, Fla), 1988, 67(7): 33-43.

[5] 毛帅. 5052铝合金光纤激光扫描焊接工艺研究［D］. 长沙: 湖南大学, 2018.

[6] 谭小军, 胡玉, 郭亮, 等. 振镜螺旋扫描焊接对3003铝合金焊缝成形和抗拉强度的影响［J］. 应用激光, 2015, 35(5): 558-563.

[7] 常云峰,雷振,张冠星,等.摆动参数对铝合金激光-MIG复合填丝焊缝气孔率的影响［J］.应用激光,2020,40(3):459-464.

[8] KIM B H. Effects of weaving laser on weld microstructure and crack for Al6 k21-T4 alloy［J］. Journal of Materials Science & Technology, 2011, 27(1): 93-96.

[9] 曹龙超. 磁场对铝合金激光焊接熔池流动及凝固组织影响的试验与数值研究［D］. 武汉: 华中科技大学, 2019.

[10] LI M, XU J J, HUANG Y, et al. Improving keyhole stability by external magnetic field in full penetration laser welding［J］. JOM, 2018, 70(7): 1261-1266.

[11] 胡勇, 陈智君, 王梁, 等. 静态磁场对激光熔池传热及流动行为的调控作用数值模拟［J］. 应用激光, 2014, 34(6): 508-512.

[12] GATZEN M, TANG Z. CFD-based model for melt flow in laser beam welding of aluminium with coaxial magnetic field［J］. Physics Procedia, 2010, 5: 317-326.

[13] 余世文,周昆,张威,等.6.0 mm厚5183铝合金激光摆动焊接工艺研究［J］.激光技术,2018,42(2):254-258.

王建锋, 仲赞, 楼平, 徐文辉, 李健, 徐国华, 汤超, 何卫, 王沐. 厚板铝合金磁场辅助激光摆动焊接工艺研究[J]. 应用激光, 2023, 43(1): 25. Wang Jianfeng, Zhong Zan, Lou Ping, Xu Wenhui, Li Jian, Xu Guohua, Tang Chao, He Wei, Wang Mu. Study on Magnetic Field Assisted Laser-Weaving Welding Process of Thick Aluminum Alloy Plate[J]. APPLIED LASER, 2023, 43(1): 25.

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