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中厚板TC4钛合金真空环境激光焊接特性

Study on laser welding characteristics of thick wall TC4 titanium alloy in vacuum environment

  • 摘要: 在大气和真空环境下使用光纤激光器对TC4钛合金进行焊接,分别对不同激光功率焊接焊缝形貌和组织进行观察,并对性能进行测试分析. 结果表明,真空环境激光焊接焊缝成形更加良好,可明显提高焊缝熔深,增大焊缝深宽比,抑制焊接过程中的飞溅,极大减少焊缝中的气孔缺陷. 大气环境与真空环境焊缝组织特征差别不大,真空环境热影响区宽度明显减小. 两种环境下焊缝显微硬度均呈马鞍形分布,焊缝熔化区硬度最高的特点,大气环境焊缝平均硬度约为390 HV,高于真空环境焊缝平均显微硬度8.3%. 对焊缝进行拉伸强度测试,拉伸试件全部断裂于母材部位,试件的抗拉强度为960 ~ 980 MPa.

     

    Abstract: Use fiber laser to weld TC4 titanium alloy under vacuum and atmospheric environment, observe the shape and structure of the weld seam obtained by welding with different laser power in atmospheric and vacuum environment, and test the performance. The results show that laser welding of the vacuum environment is more favorable. The vacuum environment can significantly improve the weld penetration, increase the depth-to-width ratio of the weld, suppress the spatter during welding, and greatly reduce the porosity in the weld. There is little difference in the weld structure between the atmospheric environment and the vacuum environment, and the width of the heat affected zone of the vacuum environment is significantly reduced. In both environments, the microhardness of the weld is saddle-shaped and the weld has the highest hardness. The average hardness of the weld in the atmospheric environment is about 390 HV, which is higher than the average hardness of the weld in the vacuum environment of 360 HV. The tensile strength of the weld was tested The tensile test piece was completely fractured at the base material. The tensile strength of the test piece was about 960 ~ 980 MPa.

     

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