Design of Gr/2024Al composite and Ti6Al4V titanium alloy joint brazed using AgCuSnTi filler and Ni/Nb/Ni composite interlayers

Abstract

The AgCuSnTi filler was designed to braze Gr/2024Al composite and Ti6Al4V titanium alloy through investigating the effect of Sn and Ti addition in AgCuSnTi filler on the microstructure and mechanical property of the joint. The results showed that Sn and Ti addition decided the distribution of compounds (Al 2 Cu and Al 5 CuTi 2 phases) in the brazing seam. The increasing of Sn content could enhance the flowability of brazing alloy, and promote the compounds to be dispersive in the brazing seam. Ti in the filler induced the formation of Al 5 CuTi 2 phase instead of Al 2 Cu phase. When the Gr/2024Al and Ti6Al4V were brazed using the AgCuSnTi filler with 3 wt.% Ti and 27 wt.%Sn at 680℃ for 10 min, the Al 2 Cu and Al 5 CuTi 2 phases were dispersed in the brazing seam. The maximum shear strength of the brazed joint was 17 MPa and cracks propagated in the Gr/2024Al substrate. In addition, Ni/Nb/Ni composite interlayers were designed to strengthen the Gr/2024Al composite and Ti6Al4V titanium alloy joint, and the joint strength increased to 24 MPa owing to the adoption of the interlayers.