机械振动辅助铝合金CMT接头成形与组织

基于高频微振平台，进行6082铝合金机械振动辅助冷金属过渡焊接(CMT)试验，探究高频微振CMT工艺对焊接接头组织性能的影响. 结果表明:施加振动后，焊缝余高略有增加，熔宽减小，熔深增大. 当振动频率为1 119 Hz时，余高和熔深分别增加4.5%和23%. 振动使热影响区宽度变窄，熔合线附近晶粒尺寸从原先的20 μm减小到15 μm. 施加振动后，气泡逸出速度加快，柱状晶的生长趋势被抑制，晶粒细化，焊接接头软化区的硬度提高，接头硬度分布更加均匀. 当振动频率为1 119 Hz时，焊缝软化区维氏硬度值达到最高为77 . 施加振动可以有效降低接头焊缝和热影响区残余应力. 当振动频率为1 119 Hz时，焊接接头和热影响区最大残余应力平均值分别减小9.6%和6.3%，焊接接头力学性能得到提升.

Formation and microstructure of aluminum alloy CMT joint assisted by mechanical vibration

Based on the high-frequency micro-vibration platform, the mechanical vibration-assisted cold metal transfer welding (CMT) test of 6082 aluminum alloy was carried out to explore the influence of high-frequency micro-vibration CMT process on the microstructure and properties of joints. The results show that after applying vibration, the weld reinforcement increased slightly, the weld width decreased, and the penetration depth increased. When the vibration frequency was 1 119 Hz, the weld reinforcement and penetration depth increased by 4.5% and 23% respectively. The vibration narrowed the width of the heat-affected zone, and the grain size near the fusion line had reduced from the original 20 μm to 15 μm. After vibration was applied, the bubble escape speed was accelerated, the growth trend of columnar crystals was suppressed, the crystal grains were refined, the hardness of the joint softening zone was improved, and the hardness distribution of the welded joint was more uniform. When the vibration frequency was 1 119 Hz, the Vickers hardness of the weld softening zone reached the highest value of 77. Vibration can effectively reduce the residual stress of the welded joint and the heat-affected zone. When the vibration frequency was 1119 Hz, the average value of the maximum residual stress of the welded joint and the heat-affected zone had reduced by 9.6% and 6.3% respectively, and the mechanical properties of the welded joint were improved.