Automating NC Programming Helps Speed Machining Processes, Improves Part Quality
Q&A with David Klotz, president and CEO of Tebis America Inc. in Troy, Michigan
Q&A with David Klotz, president and CEO of Tebis America Inc. in Troy, Michigan
A team of researchers at the Georgia Institute of Technology (Atlanta) have developed a new type of ransomware that was able to take over control of a simulated water treatment plant in a recently conducted test.
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.
Increases in size and quantity of its orders led Wisconsin-based auto parts manufacturer Felss Rotaform LLC (New Berlin, WI) to expand operations through a new dual-robot machine-tending cell. The company is a supplier of precision parts using its rotary swaging, axial forming and tube end-forming processes.
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.
ECi services a multitude of industries, but we presently have four products that service manufacturing and what FABTECH attendees would be focused on: these include Macola, Max, JobBoss, and M1, which is the product I represent.
While 3D scanning has already been adopted by many automotive part manufacturers, the use cases in Quality Control (QC) have been limited.
Traditionally, industrial robots have been deployed for manufacturing tasks that required brute strength, such as the heavy-payload robots used in the automotive industry, or they were of the speedy pick-and-place variety, the type of robots often deployed in medical or semiconductor applications. In most instances, safety requirements mandated that robots be entirely sealed off in fence-guarded cells to protect human workers from injury.
Speeding the flow of jobs through the shop, while maintaining top quality, ranks among the hallmarks of any successful manufacturing operation’s goals.