Abstract:The stationary shoulder friction stir welding (SSFSW) process tests were carried out on 12-mm-thick 2195-T8 Al-Li alloy plates, and the effects of welding process parameters on the microstructure heterogeneity and mechanical properties of the joints were discussed. The results show that smooth weld surface and completely dense defect-free weld can be obtained when the spindle speed is 300-500 r/min and the welding speed is 30-80 mm/min. When the rotating speed is 300 r/min, the welding nugget zone (WNZ) is trapezoidal, and the section is homogeneously distributed along the thickness direction. At 400-500 r/min, the shape of WNZ is obviously irregular, and refill zone (RZ) with abnormal flow is formed near the weld surface. The grain size difference along the thickness direction is 2-3 times at 400-500 r/min. When the rotating speed is reduced to 300 r/min, the grain size difference along the thickness direction decreases significantly. At 300 r/min, the hardness of the WNZ is homogeneous along the thickness direction while the hardness value at the bottom of WNZ is much lower than that at the middle and top at 400-500 r/min. Under the optimized process of 300 r/min-80 mm/min, the ultimate tensile strength of the joint can reach 71.57% of the base metal. The fracture location of tensile specimens mostly occurs at the interface between TMAZ and HAZ or at the bottom of the WNZ, which has typical plastic fracture characteristics.

Key words: thick-plate Al-Li alloy; stationary shoulder friction stir welding; heterogeneity; mechanical properties