Additive manufacturing experts from the University of Sheffield AMRC North West are exploring an innovative technique to produce hydrogen storage tanks for aerospace applications. Dr Evren Yasa, Head ...

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 ...

Superalloys are materials designed to perform under extreme conditions, such as high temperatures and pressures, making them ideal for applications in high-speed flight environments. Inconel 718 is a ...

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 ...

Wire arc additive manufacturing allowed this robot arm at ORNL to transform metal wire into a complete steam turbine blade like those used in power plants. Credit: Carlos Jones/ORNL, U.S. Dept. of ...

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 ...

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 ...

In just three years, Lincoln Electric Co. has built in Euclid what may be the largest 3D printing factory of its kind anywhere. The operation, Lincoln Electric Additive Solutions (LAS), mates ...

Researchers at the University of Sheffield AMRC North West have explored the use of wire arc additive manufacturing to produce hydrogen storage tanks for aerospace applications. The WAAM built tank ...