Rather, the challenge currently being posed by the leaders in the field of advanced manufacturing today is in whether metal additive manufacturing will hit the mainstream, and how quickly it can ...

Engineers have turned one of nature’s most reviled body parts into a precision tool, using the hollow feeding tubes of dead ...

Traditional subtractive manufacturing involves cutting away material to create a product, while 3D printing is an additive process that builds objects by adding material layer by layer. A 3D-printed ...

Using 3D printing in everyday work, producing tools, fixtures, and lab components on demand — instead of relying on long ...

Titanium superalloys are highly beneficial to the aerospace industry, helping companies to reduce their carbon footprint by making planes more fuel-efficient. 3D printing of components constructed ...

Additive manufacturing leaders are focusing on defense, helping the U.S. military move from 'futuristic visions' to ...

Aluminum is prized for being lightweight and strong, but at high temperatures it loses strength. This has limited its use in ...

The medical sector is one of the largest spaces where 3D printing operates, with continuing developments for implant customization, educational models, and drug manufacturing. The topic has recently ...

Roughly 13% of all 3D printing revenue comes from the medical industry. From prosthetics to surgical guides, there are a surprising number of medical applications for additive manufacturing technology ...

3D printing, also known as additive manufacturing or digital fabrication technology, creates physical objects through precise layer-by-layer deposition of material directly from a computer-aided ...

This radiopaque material lets healthcare providers create patient-specific models with precise, tunable X-ray visibility for training and research.