Brazing SiC ceramic using novel B4C reinforced Ag–Cu–Ti composite filler

Abstract

The development of new composite fillers is crucial for joining ceramics or ceramics to metals because the composite fillers exhibit more advantages than traditional brazing filler metal. In this research, novel B4C reinforced Ag–Cu–Ti composite filler was developed to braze SiC ceramics. The interfacial microstructure of the joints was characterized by scanning electron microscope (SEM), X-ray diffraction (XRD) and transmission electron microscopy (TEM). The effect of B4C addition and brazing temperature on the microstructure evolution and mechanical properties of the joints was analyzed. The results revealed that TiB whisker and TiC particles were simultaneously synthesized in the Ag-based solid solution and Cu-based solid solution due to the addition of B4C particles. As the brazing temperature increased, the thickness of Ti3SiC2+Ti5Si3 layers adjacent to SiC ceramic increased. Desirable microstructure similar to the metal matrix reinforced by TiB whisker and TiC particles could be obtained at brazing temperature of 950°C. The maximum bending strength of 140MPa was reached when the joints brazed at 950°C for 10min, which was 48MPa (~52%) higher than that of the joints brazed using Ag–Cu–Ti filler.