Twin-wire directed energy deposition-arc of Ti-48Al-2Cr-2Nb alloy: Feasibility, microstructure, and tensile property investigation

Due to low density and good high temperature performance, titanium aluminide has been continuously attractive for aerospace and automotive industries. In recent years, additive manufacturing of titanium aluminide has become a popular research area. The present work has first time fabricated commercial graded TiAl-4822 alloy using an innovative twin-wire directed energy deposition-arc (TW-DED-arc) process, which uses a unique twin-wire feeding method to produce the target alloy in-situ. According to experimental results, TW-DED-arc fabri-cated TiAl-4822 alloy possesses direct full density, homogeneous chemical composition, uniformed micro-structure, and stable mechanical property. Also, the formation mechanism of layered microstructure consisting of alternative columnar and equiaxed grain regions has been investigated in detail. Even under as-fabricated condition, TW-DED-arc fabricated TiAl-4822 performs competitive tensile properties compared to the same alloy produced by casting and other additive manufacturing methods. Generally, successful TW-DED-arc buildup of TiAl-4822 provides a high-efficiency and low-cost route for the further development of titanium aluminide production.

Automated summary

Due to its low density and good high temperature performance, titanium aluminide has attracted attention in the aerospace and automotive industries. In recent years, additive manufacturing of titanium aluminide has become popular. This study successfully fabricated commercial graded TiAl-4822 alloy using an innovative TW-DED-arc process, resulting in good mechanical properties and uniform chemical composition.