Effect of copper interlayer to the microstructure and strength of alumina/304 stainless steel joint brazed with silver-copper-titanium fillerAuswirkung einer Kupferzwischenschicht auf das Gefüge und die Festigkeit einer mit Silber-Kupfer-Titan-Füllstoff gelöteten Verbindung aus Aluminiumoxid und Edelstahl 1.4301

Alumina and 304 stainless steel were brazed with silver-copper-titanium filler+copper foil. The effect of adding copper foil to the filler on the microstructure of the alumina/304 joint was studied, and the reasons for the effect of adding copper foil with different thicknesses on the joint performance were also analyzed. The standard microstructure of alumina/304 joint with silver-copper-titanium+copper foil filler is alumina ceramic/copper compound with titanium and oxygen (3 : 3 : 1) (Cu3Ti3O) continuous layer+copper titanide (TiCu)/silver solid solution+copper solid solution/titanium compound with iron (1 : 2) (TiFe2)+iron-chromium compound/304 stainless steel. The added copper foil inhibits the diffusion of titanium elements, thereby reducing the formation of the brittle copper compound with titanium and oxygen (3 : 3 : 1) (Cu3Ti3O) and alleviating the residual stress. In addition, after adding copper foil, the copper solid solution is distributed in blocks in the joint, which also improves the plastic deformation ability of the joint. Under the synergistic effect of these two effects after adding copper foil, the joint strength is improved. When the copper foil was 200 mu m, the shear strength is 198.10 MPa. Alumina ceramic and 304 stainless steel were brazed using silver-copper-titanium+copper foil filler. The effect of copper thickness on the microstructure and properties of the joint was studied. The thickness of copper were 50 mu m, 100 mu m, 150 mu m, 200 mu m and 300 mu m. When the copper thickness is 200 mu m, the shear strength of the joint reaches 198.10 MPa.image