In the ITEA project FAMILIAR, Fraunhofer IAPT and the institute’s project partners have developed a digital assistance system using machine learning and mixed-reality (XR) glasses for robotic Wire Arc ...

Wire Arc Additive Manufacturing (WAAM) is a directed energy deposition process that employs an electric arc to melt a metallic wire as feedstock, depositing successive layers to build ...

Robotic-Wire Arc Additive Manufacturing (Robotic-WAAM) is one of the AM processes that has wide applicability in large-structure manufacturing, modifying/adding structural features and repairing high ...

After spotting a crack in a 60-year old arrestor system lever arm at Soo Lock, the USACE tapped Lincoln Electric to provide ...

The study includes the manufacturing process of super-invar alloy of WAAM, the relationship between micro-structure and G/R, the mechanical properties and the CTE. The main transfer mode of liquid ...

The figure shows the evolution of the microstructure of the melt pool under the influence of the simulated transient temperature field. Nucleated grains are represented in pink-purple plots, while ...

Researchers from the Beijing Institute of Technology and the Beijing Institute of Aerospace Systems Engineering used wire arc additive manufacturing to create a Super-invar Fe 64-Ni 32-Co 4 (wt%) ...

Metal powders are the most common feedstock used in metal additive manufacturing. There are lots of application and scope for using powder but also barriers in rate, scale, cost, and other factors ...

Wire and Arc Additive Manufacturing (WAAM) is a form of directed energy deposition that uses an electric arc as a heat source and metallic wire as feedstock to build three-dimensional metal components ...