When injection molding is cost-prohibitive, medical equipment manufacturers are turning to a marriage of two advanced methods—urethane casting and 3D printing.
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.
Surgical outcomes are increasingly being scrutinized by groups like the National Health Service (NHS) and World Health Organization (WHO), who audit outcomes and publish their findings.
The push to modernize technology-intensive sectors in Asia—such as automotive, aerospace and general engineering—is constantly stretching machine tool builders in the region to their limits. The demand is not just for standard machines.
Additive manufacturing has become increasingly sophisticated in recent years, capable of producing orthopedic implants with complex lattice structures that further enables osseointegration.
In late 2018, 3D Systems introduced its DMP Factory 500 concept, an end-to-end additive manufacturing solution.
Imre Patterson has a smile that lights up any room he walks into. Imre was born with a femoral discrepancy, causing one leg to be shorter than the other.
Lawyers, doctors, engineers, and regulators all must converse to advance 3D printing in medicine.
Resolution Medical, headquartered in Minneapolis, manufactures parts on contract for medical device OEMs.
The medical industry is constantly seeking out new, cutting-edge technologies to disrupt standard practices for the better.
