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光束质量对铝合金激光焊接效率与良率的影响

Effects of Beam Quality on Laser Welding Efficiency and Yield of Aluminum Alloy
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摘要 为了满足当前新能源动力电池高速生产线极限制造的需求,基于激光焊接过程中的能量分布特征,系统分析了铝合金激光焊接中光纤激光器的光束质量效应,研究了光束质量与焊接稳定性和焊接效率之间的定量关系。随着激光器光束质量因子(M^(2))的减小,焊缝熔深为2.7 mm时焊接速度呈增大趋势,焊接熔深的工序能力指数(CPK)值也呈增大趋势;当M^(2)从11.60减小到1.25时,焊缝熔深为2.7 mm时激光器的焊接速度增加了5.5倍,焊接熔深CPK值提升了2.3倍。基于激光能量分布特征的分析结果,激光器光束质量效应的提升机制为:在保持相同熔深的条件下,M^(2)越小,能量密度极大值越大,且焊道边缘与中间区域之间的能量密度极值差越大,工件材料的能量吸收效率会越高,则激光器的焊接效率越高。提出将激光器能量密度极大值和能量密度极值差这两者的乘积作为激光器能量密度焊接效率影响因子,由理论计算可知,M^(2)为1.18时的激光器能量密度焊接效率影响因子比M^(2)为11.6时的增加了5.2倍,与实验结果基本一致。 Objective To achieve carbon neutrality,lithium batteries,as a new generation of green energy products,are poised to enter the terawatt-hour(TW·h,equivalent to 1000 GW·h)era.Currently,mainstream manufacturers of state-of-the-art energy batteries have reached a production capacity of 200 pieces per minute(PPM),and there are plans to increase the production capacity of cylindrical batteries to 300 PPM.Consequently,extremely high-speed production lines present substantial challenges to the welding process.Therefore,the development of highly efficient and reliable battery-welding technologies and processes has become an urgent concern for the automobile manufacturing industry.Laser welding,with its small laser spot,high energy density,efficient welding,precise energy control,automation capabilities,and safety features,has been widely used in the field of new energy battery welding,including vehicle manufacturing.Recent research has primarily focused on enhancing the welding quality of aluminum alloys by optimizing laser welding process parameters and beam shaping.However,as the demand for higher welding efficiency in power battery welding increases,the scope for ensuring both welding quality and speed becomes constrained,making it increasingly challenging to identify suitable process parameters.Considering that lasers,as a new type of welding light source,exhibit characteristics distinct from those of the arc light sources generated by arc welding machines,research has primarily focused on laser power.The impact of laser light source characteristics on welding quality and efficiency,particularly the influence of laser beam quality,has received limited attention.To meet the demands of high-speed production lines for new energy power batteries,the effect of the beam quality from fiber lasers in aluminum alloy laser welding is systematically analyzed in this study based on the energy distribution characteristics within the laser welding process.The quantitative relationship between beam quality and welding stability,as well as welding efficiency,is also explored.Methods An industrial-grade 3-kW continuous fiber laser is used in the experiment.The laser employs a circular swing path for welding with a swing amplitude of 0.6 mm and spacing of 0.25 mm.The upper-layer material consists of a 1.5-mm-thick 3003 aluminum alloy plate,while the lower-layer material is a 3-mm-thick 3003 aluminum alloy plate.Results and Discussions With a decrease in the laser beam quality factor(M^(2)),the welding speed increases,corresponding to the same weld penetration(2.7 mm),and the complex process capability index(CPK)value of weld penetration also increases.When the M^(2)is reduced from 11.6 to 1.25,the welding speed increases by 5.5 times,and the CPK value of the weld penetration increases by 2.3 times,corresponding to the same weld penetration(2.7 mm)(Fig.4).Analyzing the energy distribution of postlaser welding oscillations on the YOZ surface reveals that,as the M^(2)improves,there is a consistent downward trend in the maximum value of the laser energy density.In addition,the area between the two maximum values decreases.For instance,the maximum energy density at M^(2)=1.18 is 1.4 times higher than that at M^(2)=11.6(Fig.5).To gauge the influence of the laser energy density on the welding efficiency,a factor derived from the product of the maximum laser energy density and the difference in the maximum value of the energy density is introduced.Calculations demonstrate that,at M^(2)=1.18,this influence factor for laser energy density welding efficiency is 5.2 times higher compared with that at M^(2)=11.6(Fig.6).To facilitate the assessment of the area disparities between the maximum peak and intermediate minimum at both ends of the weld,the region between these points on the energy distribution map is defined as the laser energy occupied space line density.Remarkably,when M^(2)is 1.18,the laser energy occupied space line density is 10.7 times greater than that when M^(2)is 11.6(Fig.6).Conclusions The influence of the beam quality from fiber lasers on aluminum alloy welding is systematically analyzed by considering the energy distribution characteristics during the welding process.A quantitative relationship between beam quality and welding stability,as well as welding efficiency,is established.The improvement mechanism for the laser beam quality effect is as follows.When the M^(2)decreases while retaining the same penetration depth,the maximum value of the energy density increases,and the energy density between the edge of the weld bead and the middle interval also increases.The higher the energy absorption efficiency of the workpiece material,the higher the welding efficiency of the laser.The product of the maximum value of the laser energy density and the difference in the maximum value of the energy density is used as a factor influencing the laser energy density welding efficiency.The theoretical calculations show that,when M^(2)is 1.18,the influence factor of the laser energy density welding efficiency is 5.2 times higher than that when M^(2)is 11.6,which is basically consistent with the experimental results.
作者 张帅 刘同争 徐志宏 代小光 朱朝晖 高明 郭少锋 Zhang Shuai;Liu Tongzheng;Xu Zhihong;Dai Xiaoguang;Zhu Zhaohui;Gao Ming;Guo Shaofeng(Hunan Dake Laser Company Limited,Xiangyin 414615,Hunan,China;Wuhan National Laboratory for Optoelectronics(WNLO),Huazhong University of Science and Technology,Wuhan 430074,Hubei,China)
出处 《中国激光》 EI CAS CSCD 北大核心 2024年第12期3-11,共9页 Chinese Journal of Lasers
基金 国家自然科学基金(52205465)。
关键词 激光技术 激光焊接 光束质量 能量分布 铝合金 laser technique laser welding beam quality energy distribution aluminum alloy
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