Wire arc additive manufacturing (WAAM) is an emerging technology for metal processing
that offers many advantages for aerospace-grade production. It provides significant design …

The similarities between additive manufacturing (AM) and fusion welding have made
Science and Technology of Welding and Joining an appropriate venue to discuss the recent …

This study evaluated the effect of dedicated heat treatments (1050° C, 1100° C, 1142° C,
and 1185° C/2 h+ double-aging) on the uniaxial tensile properties at elevated temperature …

The study reports that the combined use of in situ interlayer hot forging and post-deposition
heat treatment (PDHT) could alter the typical coarse and oriented microstructure of the Ni …

Twin wire arc additive manufacturing offers advantages such as high deposition rates and
the ability to use a wide variety of materials, making it suitable for large-scale metal part …

Abstract Inconel® 625 alloy (IN625) has been used extensively in aerospace,
petrochemical, chemical, and marine applications due to its attractive combination of high …

This literature review provides an in-depth exploration of the research conducted on residual
stresses (RS) in Wire Arc Additive Manufacturing (WAAM) products, particularly focusing on …

Exhaust components combining Inconel and stainless steel offer the most cost-effective
hybrid design for high-performance engines. Owing to the formation of brittle compounds …

This study reported the fabrication of bimetallic structures (BS) from tungsten alloy
(90WNiFe) and nickel alloy (In625) via wire-arc directed energy deposition (DED)-based …

In this study, a novel method for enhancing the quality of components fabricated by wire and
arc additive manufacturing (WAAM) was developed. This approach employs an innovative …