镀锌钢/铝合金激光熔钎焊接头组织及力学性能
Study on Microstructure and Mechanical Properties of Laser Welding-Brazing Joint of Galvanized Steel/5052 Aluminum Alloy
- 2022年52卷第4期 页码:95-99
DOI: 10.7512/j.issn.1001-2303.2022.04.14
扫 描 看 全 文
扫 描 看 全 文
陈大林,赵青山.镀锌钢/铝合金激光熔钎焊接头组织及力学性能[J].电焊机,2022,52(4):95-99.
CHEN Dalin, ZHAO Qingshan.Study on Microstructure and Mechanical Properties of Laser Welding-Brazing Joint of Galvanized Steel/5052 Aluminum Alloy[J].Electric Welding Machine, 2022, 52(4): 95-99.
为实现铝/钢异种材料的有效连接,采用激光熔钎焊对厚度均为2 mm的镀锌钢/5052铝合金进行搭接试验(铝上钢下)。随着激光功率的增大(2 400~2 800 W),焊缝抗剪强度先增大后减小;激光功率为2 400 W、2 500 W时,有未焊透、未熔合等缺陷;激光功率为2 600 W时抗剪强度达到最大值164.4 MPa,焊缝无表面缺陷、成形较好;激光功率为2 800 W时,试板被烧穿。对2 600 W搭接接头进行组织形貌、SEM、EDS及力学性能分析。研究表明,接头无气孔、夹渣、裂纹等明显缺陷,实现了铝/钢两种金属的有效连接;焊缝区域主要为Zn的固溶体,接头界面处存在Fe,2,Al,5,、FeAl等金属间化合物,金属间化合物厚度小于10 μm。接头断口形貌有大面积河流状和台阶状的撕裂棱,为脆性断裂。
In order to achieve effective joining of aluminum and steel dissimilar materials, laser welding-brazing is used for lap joint test on galvanized steel/5052 aluminum alloy with thickness of 2 mm ( aluminium on top and steel on the bottom). As the laser power increases (2 400 to 2 800 W), the shear strength of the weld first increases and then decreases; when the laser power is 2 400 W and 2 500 W, there are defects such as non-penetration and non-fusion; when the laser power is 2 600 W, the shear strength reaches the maximum value of 164.4 MPa, and the weld has no surface defects and is well formed; when the laser power is 2800 W, the test plate is burnt through. The microstructure, SEM, EDS and mechanical properties of 2 600 W lap joint were analyzed. Studies show that the obtained lap joints have no obvious defects such as pores, slag inclusions, cracks, etc. and an effective joining of aluminum and steel is realized; the weld area is mainly Zn solid solution ,and there are intermetallic compounds such as Fe2Al5 and FeAl at the joint interface, the thickness of which is less than 10 μm. The fracture morphology of the joint has a large area of river-like and step-like tearing edges, which are brittle fractures.
铝/钢异种金属激光熔钎焊金属间化合物抗剪强度
aluminum and steel dissimilar materialslaser welding-brazingintermetallic compoundsshear strength
王烁,吴志生,黄文静. 3003铝合金电子束焊接工艺及接头性能分析[J]. 热加工工艺,2016,45(5):44-47,51.
WANG Shuo, WU Zhisheng, HUANG Wenjing. Analysis on Electron Beam Welding Process and Joint Performance of 3003 Aluminum Alloy[J]. Hot Working Technology, 2016, 5(5):44-47
Yokoyama T, Ogawa K. Impact tensile properties of 6061 aluminium Alloy to SUS 304 Stainless Steel Fric-tion-welded butt Joints[J]. Welding International, 2003,17(7):514-523.
T. Shinoda,K. Miyahara,M. Ogawa and S. Endo. Friction Welding of Aluminium and Plain Low Carbon Steel[J]. Welding International, 2001, 15(6):438-445.
刘中青,刘凯. 异种金属焊接技术指南[M]. 北京:机械工业出版社,1986.
汪建梅. 铝与钢异种材料焊接工艺研究[D]. 沈阳航空航天大学, 2013.
Jianmei Wang. Investigation on welding technology of dissimilar materials between aluminum and steel[D]. Shenyang Aerospace University, 2013.
SCHUBERTE, KLASSENM, ZERNERI, et al. Light-weight structures produced by laser beam joining for future applications in automobile and aerospace industry[J]. Journal of Materials Processing Technology,2001, (115):2-8.
冯菲玥, 陈云霞. 铝/钢异种金属焊接技术的研究现状[J]. 焊接技术, 2021,50(1):1-8.
FENG Feiyue, CHEN Yunxia. Research status of aluminum/steel dissimilar metal welding technology[J]. Welding Technology, 2021,50(1):1-8.
Wang P F, Chen X Z, Pan Q H, et al. Laser welding dissimilar materials of aluminum to steel: an overview[J]. The International Journal of Advanced Manufacturing Technology, 2016,87(9-12):3081-3090.
王晓红,谷晓燕,孙大千. 钢/铝异种金属激光焊接头 界面特性的研究[J]. 机械工程学报,2017,53(04): 26-33.
陈树海,黄继华,杨冬冬,等. 镍箔中间层对不锈钢/铝合金激光深熔焊的影响[J]. 焊接学报,2012,33(8):9-12.
CHEN Shuhai, HUANG Jihua, YANG Dongdong, et al. Influence of Ni-Foil interlayer on laser penetration welding of stainless steel to aluminum alloy[J]. Transactions of the China Welding Institution,2012,33(8):9-12.
OZAKI H,KUTSUNA M. Dissimilar metal Joining of zinc coated steel and aluminum alloy by laser roll welding[J]. International Journal of Advances in Engineering &Technology,2012(2):33-53
Torkamany M J, Tahamtan S, Sabbaghzadeh J. Dissimilar welding of carbon steel to 5754 aluminum alloy by Nd:YAG pulsed laser[J]. Materials and Design, 2010, 31(1):458-465.
贾子妍,杨森,秦渊. 6061铝/Q235钢异种金属光纤激光焊接工艺研究[J]. 应用激光,2019,39(3):448-455.
Jia Ziyan, Yang Sen, Qin Yuan. Dissimilar Welding of Q235 to 6061 Aluminum Alloy by Laser[J]. Applied laser, 2019,39(3):448-455.
编辑部网址:http://www.71dhj.comhttp://www.71dhj.com
相关作者
相关机构