摘要
先进轻质铝锂合金因其出色的断裂韧性、高比强度比刚度、稳定高低温性能、良好耐蚀性,现已成为最具竞争力的航空航天材料之一。激光焊接具有能量密度高、热影响区窄、结构变形小和焊接速度快等优势,是焊接铝锂合金薄板材料最具潜力的工艺方法。采用铝锂合金焊接结构替代机械连接,可有效地提高材料的利用率,减少零件使用,降低制造成本,实现结构减重。目前,铝锂合金因其自身材料特性,在激光焊接过程中仍存在一些关键技术问题亟待解决。本文综述了铝锂合金,激光焊接技术,以及铝锂合金激光焊接技术在国内外航空航天领域的研究现状,并展望了铝锂合金激光焊接技术的主要研究方向。
Owing to excellent fracture toughness,high specific strength and stiffness,stable high-and low-temperature performance,and good corrosion resistance,advanced lightweight aluminum-lithium(Al-Li)alloy has become one of the most competitive aerospace materials.Laser welding is the most promising process for welded Al-Li alloy thin sheet,which possesses the advantages of high energy density,narrow heat-affected zone,low deformation,and fast welding speed.For Al-Li alloy structure,welded connection instead of mechanical connection can effectively improve the utilization rate of materials,reduce the components,decrease manufacturing costs,and achieve mass loss.At present,there are still some key technical problems and issues in laser welded Al-Li alloy due to its own material properties.In this paper,the research status of Al-Li alloy,laser welding,and laser welded Al-Li alloy in aerospace field was summarized.Furthermore,the main research trends of laser welding technique for Al-Li alloys were prospected.
作者
邵盈恺
陈俐
于仓瑞
李志勇
钱远宏
刘莹莹
Shao Yingkai;Chen Li;Yu Cangrui;Li Zhiyong;Qian Yuanhong;Liu Yingying(Aerospace Additive Technology(Beijing)Co.,Ltd,Beijing 100071,China;China Aeronautical manufacturing Technology Research Institute,Beijing 100124,China;Beijing Xinghang Electro-mechanical Equipment Co.,Ltd,Beijing 100071,China;Innovation Center for Aerospace Structure Additive Manufacturing,Beijing 100071,China)
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2024年第9期2678-2694,共17页
Rare Metal Materials and Engineering
基金
国防基础科研项目(JCKY2021204B×××)。
关键词
铝锂合金
激光焊接
焊接接头
细晶区
Al-Li alloy
laser welding
welded joint
fine equiaxed zone
