Characterizing Micromechanical Properties of Friction Welding Interface between TiAl Alloy and GH3039 Superalloy

• Main Authors: Suigeng Du, Songlin Wang, Wanting Xu
• Format: Article
• Language: English
• Published: MDPI AG 2020-04-01
• Series: Materials
• Subjects: friction welding; micromechanical properties; nanoindentation; fracture toughness; in-situ tensile; TiAl alloy
• Online Access: https://www.mdpi.com/1996-1944/13/9/2072

To explore the macro-fracture mechanism of a friction welded joint between TiAl alloy and GH3039 superalloy, the micromechanical properties of intermediate phases at the joint interface are characterized and the relationship between the macro-fracture and micro-fracture of the joint is established. The indentation technique has been employed to calculate the nano-hardness and fracture toughness of the intermediate phases. The dynamic in-situ tensile test in SEM has been applied to observe the initiation and propagation process of cracks at the interface. It has been found that Al₃NiTi₂ and AlNi₂Ti have the highest nano-hardness and elastic recovery rates, while TiAl and GH3039 base metals have the lowest nano-hardness and elastic recovery rates. This indicates that the harder the materials, the more prone they are to elastic deformation. Nevertheless, the fracture toughness of Al₃NiTi₂ and AlNi₂Ti are the two lowest, which were 1.7 MPa·m^1/2 and 2.7 MPa·m^1/2, respectively. The cracks sprouted from Al₃NiTi₂ and AlNi₂Ti and then spread throughout the entire intermediate phase zone. In other words, the fracture mainly happened in these two phase layers. It has been concluded that Al₃NiTi₂ and AlNi₂Ti were the two weakest phases at the interface and their poor fracture toughness results in low joint strength.