摘要
基于铜基焊丝CuSi3Mn1,采用钨极惰性气体保护焊(TIG)和激光‑TIG复合焊方法开展了QP980钢搭接焊接头的成形、组织与力学性能研究。结果表明:搭接焊接头由熔焊区、钎焊区和热影响区组成;TIG焊接头只有上基板发生部分熔化,而激光‑TIG复合焊接头的上下基板均发生了部分熔化;随着电弧电流增大,两种接头的接触角均减小,钎焊区长度均增加;脉冲激光的加入可以进一步降低接头的接触角,增加钎焊区长度;接头熔焊区以铜基体为主,内部分布着富铁小岛和富铁颗粒;钎焊区的铜基体中分布着少量富铁颗粒。随着电弧电流增加,TIG和激光‑TIG复合焊接头的拉剪载荷均增加;在相同的电弧电流下,激光‑TIG复合焊接头的拉剪载荷更高;当激光功率为240 W、电弧电流为140 A时,搭接焊接头的拉剪载荷可达12.4 kN;接头断裂位置均位于焊缝处,断裂路径由钎焊区扩展到熔焊区。本文研究表明,增加钎焊区长度能够强化接头性能,接头中的强化相为富铁小岛和富铁颗粒。
Objective Lightweight cars have become an inevitable trend for coping with global warming.A large number of advanced high-strength steels(AHSSs)have been developed to improve lightweight,safety,and other aspects.Third-generation AHSSs,represented by QP980 steel,are suitable for a variety of automotive parts,such as cross members,stringers,B-pillar reinforcements,base beams,and bumper reinforcements.Welding is an important joining method used in the production of automotive structures.Therefore,it is necessary to develop advanced welding technology for QP980 steel.Methods A new welding method using laser-TIG hybrid welding technology and a low-melting-point welding wire was developed.The lap contact portion of the substrate was 10 mm without gaps.The laser beam acted vertically on the substrate,and the angle between the TIG welding wire and substrate or laser beam was 45°.The welding wire was placed 25°away from the substrate.Ar(99.99%purity)was used as a shielding gas.The TIG current was used in DC mode.A scanning electron microscope equipped with an energy spectrometer was used to observe the microstructures and fracture surface morphologies of the welded joints.An electron microhardness tester was used to determine the microhardness variations in the joint.The sample tensile parameters were tested three times using a DN300 universal testing machine at a constant speed of 1 mm/min.Results and Discussions For the same arc current,the contact angleθis smaller for laser-TIG welded joints than for TIG welded joints,and molten metal spread length S and brazing zone length W are larger than those for TIG welded joints(Fig.4).The results showed that the wettability of the laser-TIG-welded joint was better than that of the TIG welded joint.The laser improved the arc energy utilization,and the melt-pool temperature was higher.The higher the temperature,the better the wettability of the molten metal.The cracks started from the brazing zone(Fig.10);therefore,the formation of the brazing zone was directly related to the mechanical properties of the joint.The analysis of the joint strengthening mechanism was as follows:the arc current increases from 100 A to 140 A,and the increase in W increased the bearing zone of the brazing zone and the total load of the joint.During the tensile process,the deflection of the joint causes the stress concentration in the brazing zone to crack more easily.A longer W also limits the deflection of the joint.Simultaneously,with an increase in the current,the melting amount of the substrate increased,and the strengthening phase(Fe-rich islands and Fe-rich particles)of the joint increased.Therefore,with the increase of the current,the ultimate tensile shear load of the joint increases.After the laser was introduced,the attraction and compression effects of the laser on the arc concentrated the arc energy and improved the wettability of the joint.Simultaneously,the melting amount of the substrate increased,and the strengthening phases in the fusion welding and brazing zones increased.Therefore,the performance of the laser-TIG hybrid welded joint was better than that of TIG welded joint under the same arc current.With an increase in current,the attraction and compression effects of the laser on the arc are weakened,and the length gap of W decreases under a larger current;thus,the gap in the joint performance decreases.Based on the above analysis,it is important to further improve the performance of the lap welded joint of QP980 steel by using laser-TIG control joint forming.Conclusions A new welding method for laser-TIG hybrid welding technology and a low-melting-point wire were developed to investigate the QP980 lap welded joint formation,organization,and strengthening mechanisms.Macroscopic morphology:the joint consists of the fusion welding,brazing,and heat-affected zones;owing to the addition of the laser,the contact angle of the laser-TIG hybrid welded joint is further reduced,and the length of the brazing zone is further increased.The microstructure of the fusion welding zone is dominated by a copper-based organization with Fe-rich islands and Fe-rich particles distributed among them,and the brazing zone is distributed with Fe-rich particles.The tensile shear load for both welding methods increase with the increase of arc current;the laser-TIG hybrid welded joint has a higher tensile shear load for the same arc current.Increasing the arc current and introducing a laser increase the length of the brazing zone and improve joint performance.
作者
马文杰
宋刚
孙紫倩
刘黎明
Ma Wenjie;Song Gang;Sun Ziqian;Liu Liming(Key Laboratory of Advanced Connection Technology of Liaoning Province,School of Materials Science and Engineering,Dalian University of Technology,Dalian 116024,Liaoning,China)
出处
《中国激光》
EI
CAS
CSCD
北大核心
2023年第16期22-29,共8页
Chinese Journal of Lasers
基金
国家重点研发计划(2022YFB4600900)。