Impact of Arc-Based Welding on the Microstructure Evolution and Mechanical Properties in Newly Developed Cr29.7Co29.7Ni35.4Al4Ti1.2 Multi-Principal Element Alloy

Multi-principal element alloys (MPEAs) have been subjected to extensive research due to their promising potential for numerous applications. Up to now, most of the existing research has been focused on unraveling the microstructural evolution and describing the exceptional performance of these alloys when exposed to demanding environments. Nevertheless, it is especially important to understand their processability so that these advanced engineering alloys can be considered for real-life applications where conventional manufacturing processes, such as welding, are widely used. Herein, gas tungsten arc welding (GTAW) is used for similar welding of a recently developed precipitation-hardened Cr29.7Co29.7Ni35.4Al4Ti1.2 MPEA. The microstructural evolution and resulting mechanical properties are characterized by combining optical and electron microscopy, synchrotron X-ray diffraction, microhardness mapping, and tensile testing. The different microstructure features across the welded joint are correlated to the weld thermal cycle and resulting local mechanical properties. Overall, the Cr29.7Co29.7Ni35.4Al4Ti1.2 MPEA exhibits excellent weldability and mechanical properties, reaching a tensile strength of approximate to 750 MPa and a fracture strain of approximate to 33% during tensile tests, making this alloy viable for structural applications. The innovative aspect of this work includes the expansion of the current understanding on the physical metallurgy of MPEAs, as well as the examination of this particular MPEA's processability.

Automated summary

Multi-principal element alloys (MPEAs) are extensively researched for their potential applications. While previous studies focused on microstructural evolution and exceptional performance, the processability of these alloys is crucial for real-life applications. In this study, gas tungsten arc welding (GTAW) was used to weld a precipitation-hardened MPEA, and the resulting microstructure and mechanical properties were characterized. The Cr29.7Co29.7Ni35.4Al4Ti1.2 MPEA exhibited excellent weldability and mechanical properties, making it suitable for structural applications.