The microstructures and properties of liquid film solution-diffusion welding interface for ZCuBe2.5 alloy have been studied using Cu-base powder. It reveals that the welding joint has high tensile strength up to 278 M...The microstructures and properties of liquid film solution-diffusion welding interface for ZCuBe2.5 alloy have been studied using Cu-base powder. It reveals that the welding joint has high tensile strength up to 278 MPa, rational distribution of hardness and better matches with base materials in properties. Weld metal consists of the uniform and fine α-Cu equiaxed grain and intergranular Cu5.6Sn phase. The weld is well combined with base materials. The transition solid solution combination interface with a thickness of 150 μm has been formed. In the process of stable welding, the thickness of interface appears to have an increase linearly with bonding time. In the cases of same bonding time, the thickness of interface increases with an increase of temperature gradient, which will become even more apparent with the increase of bonding time.展开更多
文摘The microstructures and properties of liquid film solution-diffusion welding interface for ZCuBe2.5 alloy have been studied using Cu-base powder. It reveals that the welding joint has high tensile strength up to 278 MPa, rational distribution of hardness and better matches with base materials in properties. Weld metal consists of the uniform and fine α-Cu equiaxed grain and intergranular Cu5.6Sn phase. The weld is well combined with base materials. The transition solid solution combination interface with a thickness of 150 μm has been formed. In the process of stable welding, the thickness of interface appears to have an increase linearly with bonding time. In the cases of same bonding time, the thickness of interface increases with an increase of temperature gradient, which will become even more apparent with the increase of bonding time.
