3D Systems announced enhancements to its reverse engineering software products.
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Additive manufacturing (AM) in medicine continues to grow each year. It is a remarkable enabler, but the industry is fraught with barriers to adoption, slow for the sake of patient safety.
As one of the oldest and most prestigious research-lead universities in Europe, KU Leuven is an institution that is always seeking to innovate and stay on top of the latest trends and technologies.
Within the healthcare and medical sector, it is the orthopedic sector that continues to adopt additive manufacturing, or 3D printing, at an astonishing rate.
So you’ve heard all sorts of good things about Swiss-style, sliding headstock CNC lathes and have been thinking about investing in one.
Lungs, hearts, tumor-filled skulls, brains, livers, kidneys, and rib cages, are packed into shelves at the 3D Anatomic Modeling Laboratory at Mayo Clinic.
In late 2018, 3D Systems introduced its DMP Factory 500 concept, an end-to-end additive manufacturing solution.
For the highest levels of competitive benchrest and extreme long-range (ELR) shooting, feats of precision manufacturing and machining are required for success. Like Formula 1 racing cars or PGA golfers’ clubs, world-class competition rifles are made with highly engineered precision parts.
When injection molding is cost-prohibitive, medical equipment manufacturers are turning to a marriage of two advanced methods—urethane casting and 3D printing.
Metal 3D printing can enable rapid, low cost iterations of new medical devices, since no tooling costs are involved.