Hiroshima University advances 3D printing of WC–Co using hot-wire laser irradiation to cut waste and cost while keeping extreme hardness.

Japanese researchers from Hiroshima University, Higashi-Hiroshima, and Mitsubishi Materials Hardmetal Corporation, Gifu, have reported the successful Additive Manufacturing of tungsten carbide–cobalt ...

Division Manager Additive Manufacturing Dr.-Ing. Elena Lopez | Fraunhofer Institute for Material and Beam Technology IWS Dresden | Phone +49 351 83391-3296 | Winterbergstraße 28 | DE-01277 Dresden | ...

Fraunhofer ILT and Cailabs are entering a development partnership to advance wire-based laser material deposition for demanding industrial applications. Cailabs contributes a new, particularly compact ...

AEC will focus on building a strong industrial ecosystem for Meltio’s technology in the U.S., driving business opportunities ...

ORLANDO, Fla.--(BUSINESS WIRE)--Fonon Corporation, a multi-market holding company, R&D center, equipment designer and manufacturer of advanced laser material processing systems for subtractive and ...

Tungsten carbide–cobalt is prized for its hardness, but that same property makes it unusually difficult to shape. The current process is wasteful and expensive for the yield produced, and an ...

Challenges when dealing with high-power-density designs. Utilizing cloud manufacturing platforms (CMPs). Power packaging using additive manufacturing. Today’s designers are now more equipped to ...

Meltio, based in Linares, Spain, has appointed Automation Engineering Company (AEC), Greer, South Carolina, USA, as an ...