Explore the world’s most fascinating ancient sites and uncover evidence of advanced machining technology used by civilizations long before modern tools existed. From Egypt to Peru, discover mysterious ...

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 ...

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 ...

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 ...

Uncontrolled vibration creates multiple problems in metalcutting operations. Varying forces in the cutting process cause vibration and tool chatter that degrade part surface quality, quickly wear or ...

The developers of a new, hybrid manufacturing process that combines laser material deposition with turning (or grinding, or milling) claim it allows high-strength materials to be applied quickly and ...

The industrial machinery landscape is rife with unprecedented challenges—supply chain shortages, labor scarcity and entrepreneurial market disruptions. At the same time, machine builders are tackling ...

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, ...

Machining refers to the processes of cutting a piece of raw material into different shapes and sizes to come up with the final product. During the process of manufacture, controlled material addition ...