AM is used in everything from aerospace and automotive to consumer products. But some of the earliest and most significant applications are in healthcare. To this end, the theme of this month’s Manufacturing Engineering is medical machining.
The third in its series of Industry 4.0 playbooks, “Shaping Tomorrow: Mastering Additive Manufacturing” focuses on the impact of AM on traditional design processes.
Making 3D printing sustainable requires more than recyclable materials and energy-efficient equipment; it requires that we rethink the status quo.
The dramatic growth in the number of universities with sustained AM research programs and associated curricula also means that many of these graduating students have even played a direct role in advancing the technology.
Additive veteran Andrew Graves boldly goes where no materials expert has gone before.
The Additive Manufacturing Users Group (AMUG) today announced the recipients of its scholarships.
All you need is a little compressed air to make manufacturing more efficient
The University of Maine’s BioHome3D prototype celebrates it’s first birthday with plans of developing a BioHome neighborhood.
With 500-watt lasers and a square build plate, Trumpf says its TruPrint 2000 is optimized for users in the dental and medical technology industries.
There could be a better way for manufacturing. One that teams additive manufacturing (AM) with green materials, while promising to erect structures much faster and cheaper.
