辅助增强匙孔气流对激光焊接不锈钢组织和显微硬度的影响
Effects of keyhole-assisted gas jet on microstructure and microhardness of stainless steel laser weld
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摘要: 以HR-2抗氢钢为试验材料,利用板条型CO2连续激光器,采用喷嘴在前、入射角为60°的匙孔增强气流,进行了不同参数下的激光焊接试验.结果表明,在气流辅助增强匙孔激光焊中,匙孔气喷嘴在前的布局对熔池扰动小,能获得较好的焊缝成形;与传统激光焊接相比,熔深增加、熔宽明显减小,焊缝形状呈葫芦型,这是匙孔气流压制等离子体、使匙孔向底部凹陷的结果;从焊缝组织来看,增强激光焊焊缝的柱状晶较短小,焊缝中心呈现等轴晶形态,属于FA的不锈钢凝固模式.与传统激光焊不同,气流辅助增强匙孔激光焊的焊缝、热影响区显微硬度与母材相当,这可能是引入的增强匙孔气流改善了焊缝金属的冷却条件,更少铁素体析出的结果.Abstract: Slab CO2 continuous wave laser welding of HR-2 hydrogen-resistance stainless steel was carried out with different keyhole-assisted gas jet.During welding,the incident angle of the keyhole-assisted gas jet was 60° with a nozzle put ahead of the laser beam.The experimental results show that the layout with gas nozzle ahead of laser beam obtained better weld appearance and had little perturbation on the welding pool than that with gas nozzle behind the laser beam in gas jet-assisted keyhole laser welding.Compared with traditional laser welding,penetration depth increased significantly while penetration width decreased, and the weld shape became gourd-like with narrow middle part and wide upper and lower parts in the enhanced laser welding,because more plasma was suppressed within the keyhole and the keyhole deepened.Shorter columnar grains formed near the fusion line while equiaxed grain existed in the center of weld in enhanced laser welding,and the weld solidified by following ferrite-austenite (FA) mode.The reason for less ferrite precipitated in the weld could be resulted from the introduction of keyhole-assisted gas jet which improved the cooling condition of the weld metal.