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不同成形状态2195铝锂合金GTAW焊接头的组织与性能

Microstructure and properties of GTAW welded joint of 2195 Al-Li alloy in different forming states

  • 摘要: 采用喷射沉积2195铝锂合金旋态和锻态材料进行了GTAW对接焊,检测了接头抗拉强度和维氏硬度,观察了接头金相组织及断口形貌,对接头各区域进行了EBSD表征和微观特征量的统计分析,讨论了接头微观组织与力学性能的相关性. 结果表明,旋、锻态材料具有良好的GTAW工艺性,接头抗拉强度达到了各自母材的71%和68%,断后伸长率达到7.3%,拉伸断口呈现出韧性断裂特征. 接头焊缝区金属的小角度晶界比例较低,靠近旋侧的小角度晶界比例为6.4%,靠近锻侧的小角度晶界比例为7.8%;旋侧与锻侧的焊接热影响区及熔合区均趋于一种相似的微结构,母材、热影响区、熔合区及焊缝金属的平均晶粒尺寸依次处于10,10 ~ 15,15 ~ 23,20 ~ 25 μm的水平,具有较好的组织“连续性”,母材晶粒细小、成分均匀的特点在焊接过程中得到了保持,一定程度上展现了喷射沉积铝锂合金材料的应用优势.

     

    Abstract: GTAW butt welding was carried out using spray-deposited 2195 aluminum-lithium alloy spinning and forging materials. The tensile strength and Vickers hardness of the joint were measured, and the metallographic microstructure and fracture morphology of the joint were observed. The EBSD characterization and statistical analysis of micro characteristic quantity were carried out for each area of the joint. The correlation between microstructure and mechanical properties of the joint was discussed. The results show that the spinning and forging materials have good GTAW processability, the tensile strength of the joint reaches 71% and 68% of the respective base materials, the elongation reaches 7.3%, and the tensile fracture shows ductile fracture characteristics. The proportion of low angle grain boundary of the metal in the joint weld zone is relatively low. The proportion of low angle grain boundary close to the spin side is 6.4%, and the proportion of low angle grain boundary close to the forging side is 7.8%. The heat affected zone between the spin side and the forging side and the fusion zone tend to similar microstructure. The average grain size of the base material, heat affected zone, fusion zone and weld metal are in order of 10, 10 − 15, 15 − 23, 20 − 25 μm, with the better “continuity” of the structure. The fine grain size and uniform composition of the base material are maintained during the welding process, which to a certain extent shows the application advantages of spray-deposited aluminum-lithium alloy materials.

     

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