Wire-Arc Additive Manufacturing (WAAM) is the metal additive manufacturing method with the highest deposition rate and can be used to manufacture the largest fabricated structures of any metal ...

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 ...

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 ...

Learn how WAAM3D, NAICO and CCAM are strengthening aerospace manufacturing in Malaysia at the MyAERO Centre and in the US ...

Machine learning-assisted metal additive manufacturing has been widely applied in performance optimization and control, such as process parameter optimization, structural optimization of formed parts, ...

It may sound like a pop band, but μ-WAAM is actually a 3D printing technique for making small metal parts from the NOVA University Lisbon. Of course, WAAM stands for wire arc additive manufacturing, a ...

Acquisition Adds Unique Application Expertise to Accelerate Adoption of Additive Manufacturing 2.0 by Major OEMs in Hydraulics, Oil & Gas, Aerospace, Machinery, and Other Industrial Sectors ...

Additive manufacturing, or 3D printing, is widely recognised as a new industrial revolution 1 in the manufacture of components and products. There are, however, some issues that are not due to the ...

This Formula One racecar brake duct bracket is additively manufactured using nylon powder with short strand carbon fiber (e.g., milled fiber) and resembles some of the 3D printed metal brackets below.