In this study, vacuum atmosphere. The diffusion bonding of TiAI alloy and Ti3AlC2 ceramic was carried out using Ni foil as interlayer in a interfacial microstructures and the mechanical properties of the diffusion bon...In this study, vacuum atmosphere. The diffusion bonding of TiAI alloy and Ti3AlC2 ceramic was carried out using Ni foil as interlayer in a interfacial microstructures and the mechanical properties of the diffusion bonded joints were evaluated. Result showed that the interfacial microstructure of the joint from TiAl to Ti3AlC2 side could be divided into Al3NiTi2 , AlNi2 Ti , Ni3 ( Al, Ti) , Ni , Ni3 ( Al , Ti) , Ni ( Al , Ti ) , Ni3Al + TiC~ + Ti3AlC2 , respectively. The shear strength test showed that an average value of 45.9 MPa was achieved. The crack propagated along the interface between TiAl intermetallic and Ni interlayer during the shear test. The mechanisms f or formation of those compound layers during bonding process and the determinant of the fracture location were also discussed.展开更多
基金This work was supported by the National Basic Research Program of China (2011CB605505) and the National Natural Science Foundation of China under Grant No. 51021002 and No. 51275133.
文摘In this study, vacuum atmosphere. The diffusion bonding of TiAI alloy and Ti3AlC2 ceramic was carried out using Ni foil as interlayer in a interfacial microstructures and the mechanical properties of the diffusion bonded joints were evaluated. Result showed that the interfacial microstructure of the joint from TiAl to Ti3AlC2 side could be divided into Al3NiTi2 , AlNi2 Ti , Ni3 ( Al, Ti) , Ni , Ni3 ( Al , Ti) , Ni ( Al , Ti ) , Ni3Al + TiC~ + Ti3AlC2 , respectively. The shear strength test showed that an average value of 45.9 MPa was achieved. The crack propagated along the interface between TiAl intermetallic and Ni interlayer during the shear test. The mechanisms f or formation of those compound layers during bonding process and the determinant of the fracture location were also discussed.
