The interfacial microstructure and soldering mechanism of the low-temperature active bonding SiO₂ substrate with Sn3.5Ag4Ti( Ce,Ga) alloy filler were investigated by means of SEM,EDX and TEM,and the mechanism and dynamic process of the active bonding between Sn3.5Ag4Ti( Ce,Ga) and SiO₂ substrate were analyzed on the basis of the active adsorption and reaction thermodynamics theories.Experiment results show that TiSi and TiO₂ phases form along the interface.Both theoretical results and experimental results indicate that the chemical adsorption of Ti on SiO₂ substrate interface may be the main reason for wetting and plays an important role in the initial bonding stage,and that the main bonding mechanism of Sn3.5Ag4Ti( Ce,Ga) and SiO₂ substrate can be described as the interfacial reaction between Ti and SiO₂ and the forming of correspondent reactants.