Interfacial microstructure and strengthening mechanism of BN-doped metal brazed Ti/SiO_2-BN joints

摘要

Ag-Cu-Ti + BN composite filler was developed to braze SiO_2-BN ceramic and titanium. The effects of BN particles content on the microstructure and mechanical properties of the joints were investigated. The fine TiB whiskers and TiN particles were synthesized in the brazing seam by introducing BN particles. TiN-TiB_2 reaction layer formed adjacent to SiO_2-BN ceramic while Ti-Cu compound layer formed at Ti substrate. With the increase of BN content, more fine-grains formed in the joint and the reaction layer nearby the base materials became thinner. The hardness and modulus of the reaction phases were characterized by nanoindentations to reveal the plastic deformability of the brazing seam. The improvement of the joint strength was 340% with 3 wt.% BN addition. The joint strength was determined by the thermal expansion mismatch between the joined materials, plastic deformation in the brazing seam, and interfacial structure of the joint.