Put the paper and pencil away. Hybrid data management and analysis systems-where users combine paper tracking with computer processing-are no longer meeting the needs of manufacturers for speed, accuracy, traceability and compliance with regulations.
Wyoming Completion had a shock when it began machining parts in an automated machining cell. It was a good shock: While the company hoped for a 25-35% boost in production, it experienced 400% improvement.
The second level of machining automation is here. It may not be at every shop or factory yet, but it’s coming.
Industrial robots are becoming easier to program, more versatile, more cost-effective, more accurate and more mobile. These changes are lowering barriers to entry, shortening return on investment and making robots a more practical investment.
Cloud technology presents manufacturers with opportunities to improve the flexibility, scalability and efficiency of their operations. Realizing these benefits will require more than simply doing a one-to-one transfer of current technology to cloud-based servers.
CGTech, a developer of verification and simulation software technology for the manufacturing industry, has appointed Mark Forth as Global Business Development Manager. Forth joined CGTech’s corporate headquarters in Irvine, Calif. on Oct. 1.
With more manufacturers and engineers embracing additive manufacturing, or 3D printing, for serial production of functional parts, the demand for and creation of high-performing additive materials continues at a rapid pace.
Blockchain can help power the process to monetize Big Data and will play a role in the FDA’s regulations to limit pharmaceutical counterfeiting by increasing security of the drug supply chain, said experts Smart Manufacturing gathered at Westec 2019 for an exclusive blockchain-tech roundtable
While looking for inspiration for this column,Ilene Wolff came across a rousing magazine headline. “Why the Women in 3D Printing Innovator Award Is Important,” the TCT Magazine headline read.
Manufacturers of all sizes see an uptick in productivity after adding a factory within a factory via an automated machining cell. The cells are small-scale, clearly defined production units, often for a family of similar parts or a product, and they typically include a robotic arm and one or more machine tools. These can include horizontal and vertical lathes, machining centers and grinders. The cell may also include a conveyor component.