Additive manufacturing (AM) encompasses a suite of technologies that build parts layer by layer from digital models, offering unparalleled design freedom, material efficiency and customisation. The ...

The dynamics of additive manufacturing encompass a complex interplay of heat transfer, fluid flow, phase change and solidification that govern the development of microstructure, mechanical properties ...

Researchers propose a novel process paradigm of photopolymerization-extrusion coupled molding targeting the 3D printing of ...

“Additive manufacturing” describes a range of technologies that convert CAD models into 3D forms, including stereolithography and fused deposition modeling, for polymers and other non-metallic ...

Fraunhofer Institute for Laser Technolog (ILT), Aachen, Germany, is tackling the challenge of 3D printing large components economically by using a new process called Hybrid AM that combines ...

Velo3D is a metal 3D printing technology company that enables customers to build mission-critical metal parts. The fully ...

Researchers at the Department of Energy's Manufacturing Demonstration Facility at Oak Ridge National Laboratory have ...

AIM-4AM is a $2 million initiative that is seeking to develop an AI-driven framework to identify and quantify risks within ...

Tungsten carbide-cobalt is an excellent material for cutting tools as it is extremely heat- and wear-resistant. In the new research project “Additive Manufacturing of Machining Tools out of WC-Co – AM ...

The advancement of nanofabrication and advanced manufacturing techniques in recent years has enabled material scientists to ...

In job shops, throughput often lives in the steps between cuts: tooling, offsets, refixturing, programming and training. The March issue features practical ways shops are cutting setup time and ...

AM operators are currently using SEM as a characterization tool for finished products. SEM offers high spatial resolution so the surface quality of the parts that are made using AM processes can be ...