There are plenty of reasons to take advantage of today’s five-axis machining technology. First, it gives you access to all five sides of a prismatic workpiece. If for no other reason than being able ...

Modern CNC machine shops face relentless pressure to boost productivity, shorten cycle times, and reduce costs — all while preserving tool life, part quality and process reliability. They must meet ...

As manufacturers continue to pursue digital transformations and automation capabilities continue to mature, could true autonomous machining be on the horizon? The potential exists. And it could be a ...

This Collection supports and amplifies research related to SDG 9: Industry & Innovation. Ultra-precision machining stands at the forefront of advanced manufacturing, enabling the fabrication of ...

Area residents interested in hands-on, high-paying careers are invited to Amarillo College’s Machining the Future: A Career ...

A digital thread approach to engineering encourages collaboration among engineering disciplines and leads to a simulation-driven digital twin. By adopting a digital thread approach to engineering, ...

Humans had to carry out all their machining processes by hand for centuries. Even precision tools had to be maneuvered very carefully, inch by inch, by people holding the devices personally. That all ...

New milling machine technology allows you to achieve tighter tolerances, maintain high production rates and avoid placing new demands on the milling crew. “The newer generation of grade controls, ...

Advanced machining can solve many of the challenges of today’s increasingly difficult-to-produce parts such as miniaturization, part complexity, strict tolerances, thin walls, material hardness and ...

Even if your machine cycle times are shorter than average, there’s no reason not to strive for efficiency. Whether you parse through your code manually or use a G-code optimizer, improving your ...