Abstract:The stability of GH4169 electron beam welding joints was studied under different high temperature conditions, and its high temperature stability performance under corresponding time conditions was explored. The microstructure and mechanical properties of the samples after different high temperature corrosion time were studied by optical microscope, SEM and tensile test. The results show that the center region of the weld of GH4169 alloy is dendritic and cellular dendritic. Due to the interaction between the high temperature corrosion time and the pinning effect of the second phase particles, the grains grow continuously with high temperature corrosion, reaching a maximum value at 25 h, and then the grain size has a tendency to decrease, and the grains continue to become coarse after 50 h. Under high temperature corrosion at 650 ℃, the mechanical tensile properties of the welded joints reach the best at 25 h, and the mechanical tensile properties of the joints at 75 h are lower than those of the joints without high temperature corrosion. A layer of dense oxide film will be formed on the surface of welded joint after a long time high temperature corrosion.

Key words: GH4169 superalloy; electron beam welding; high temperature stability