The use of additive manufacturing (AM) in the medical industry is well established in making dental implants, artificial hip joints, and molds for invisible braces.
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There are plenty of machine shops content to remain a certain size while shying away from change and expansion. However, other shops embrace that challenge with relish.
John Rice, president, CEO and director of Sigma Labs Inc., discusses aerospace's adoption of 3D printing in an interview with SME Media.
Taking stock of a surprising and challenging 2016, a number of trends may point to a future where manufacturing output increases while continuing to decentralize.
More durable and versatile therapeutic wearable material, more accurate part measurement and improved automation and 3D printing were among the many technologies on display at this year’s Medical Design & Manufacturing (MD&M) East conference, June 12-14, in New York City.
When additive manufacturing first hit the market, some said it would eventually be the death of traditional, or subtractive, CNC machining. More than 30 years later, new machines are showing additive manufacturing as it really is—a complementary technology.
Alex Berry and his team at Sutrue Ltd. (Colchester, England) exploited the benefits of 3D printing prototypes when developing two new automated suturing devices. They also coined a phrase to describe their prototyping technique.
Some in the medical industry are using silicone rubber molds made with a 3D-printed master pattern for low-to-mid production runs of cast polyurethane device housings.
Industrial lasers require cooling to remove excess heat generated in the resonator power electronics and the optics system. The type of cooling required is determined by laser wattage, resonator efficiency, resonator and optics temperature requirements, and ambient temperature.
Fabrisonic, Now 6 Years Old, Moves to Develop New Processes, Materials