Manufacturing has the largest economic multiplier effect of all industries, integrating both ideas and technologies across multiple disciplines, and aiming for the creation of processes and systems ...

Machining of advanced materials—such as high‐temperature superalloys, titanium alloys, ceramics and composite systems—poses unique challenges owing to their high strength, low thermal conductivity and ...

This Scientific Reports Collection welcomes original research on Advanced manufacturing for sustainable and intelligent production. Narrative review articles are also welcomed, to our sister journal ...

Despite the remarkable technological advances that fill our lives today, the ways we work with the metals that underlie these developments haven’t changed significantly in thousands of years. This is ...

Pioneering the Future of Materials and Manufacturing Through Innovation and Research. At the Materials and Advanced Manufacturing Research Center (MAMRC), we address fundamental and applied challenges ...

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 ...

Michigan Tech's advanced degree programs in Manufacturing Engineering meet industry needs and further your expertise in the field. Be equipped to continue accelerating the growth of innovative ...

These developments mark a transition beyond traditional hand lay-up techniques, positioning natural fibres as credible, ...

The Army needs to embrace advanced manufacturing at the beginning of new system development to surpass potential foes. In the future, advanced manufacturing techniques like 3D printing could allow ...

Intel has started early production of its 18A-P chip manufacturing process. This new technology offers better speed and power efficiency. Chips made with 18A-P will run cooler. Existing chip designs ...