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.
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What does a submarine operating underwater have in common with a metal stent propping open a human artery? More than you’d think initially.
With the September issue, Smart Manufacturing introduces Collective Intelligence, a new initiative under which we gather experts in one room to go deep on one important topic. We focused this first roundtable on the intractable problem of the workforce skills gap.
Throughout 2018, SME has published a series of Smart Manufacturing Industry Reports, with the third being released at IMTS this month. The reports, available at sme.org/reports, detail the necessity and advantages of smart manufacturing, the challenges to implementing digital solutions, and, finally, keys to implementing the technologies and tools.
As the momentum to go green continues to build across the globe, the number of environmental regulations for reducing hazardous substances keeps growing. At the same time, more and more customers are now setting their own environmental requirements, adding more complexity to the mix.
When considering a new robotic automation system, one of the biggest concerns can be the weight of the initial costs. While such a large capital expense may be hard to swallow at first, it’s industry-proven that manufacturers see an average ROI of 24 months from robots.
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.
In the 1955 short story “Autofac,” Philip K. Dick envisioned a world dominated by self-replicating robots that work incessantly, eventually depleting the planet’s resources.
It’s not often you get the opportunity to witness rapid, life-impacting change, but for those of us who have been in the 3D printing industry over the last few decades, we have witnessed just that. In the last 20-plus years, 3D printing has changed the definition of manufacturing from merely “one-size-fits-all” to “customized” production and from “high-volume” to “high-complexity/low-volume”—a startling paradigm shift that has enabled many new applications for the manufacturing industry.
The requirements for FDA 21 CFR Part 11 are in place for a good reason: When companies are making a part that goes inside your body, the engineering and manufacturing process must be meticulously documented, tested and controlled. People’s lives are at stake.