Explore the latest stories in additive manufacturing, including innovative 3D printing solutions and advanced materials.

A new materials study examines activated carbon and magnesium oxide as additives in FFF filaments, with implications for thermal stability, strength, and durability.

PHILADELPHIA & LINTON, Ind.--(BUSINESS WIRE)--Braskem (B3: BRKM3, BRKM5, and BRKM6; NYSE: BAK; LATIBEX: XBRK) the largest polyolefins producer in the Americas, as well as a market leader and pioneer ...

CHICAGO--(BUSINESS WIRE)--As leaders in the additive manufacturing industry, Dynamism is excited to introduce the highly anticipated Tullomer™ Super-polymer Filament from Z-Polymers to customers for ...

Significant loss of bone, resulting in pelvic discontinuity, often requires surgical reconstruction to integrate patient-specific triflange cup implants for severe cases. Current cups are typically ...

Additive manufacturing has quietly shifted from a niche hobbyist tool to a powerful engine of modern production. What began as small-scale experimentation in garages and maker spaces has evolved into ...

Watching a 3D printer in action involves a few distinct steps: Design Preparation: This is where the digital 3D model is ...

Additive manufacturing is revolutionising the field of orthopaedics by enabling the custom fabrication of patient-specific devices. The technology utilises computer-aided design along with advanced 3D ...

Airtech Advanced Materials Group announced the integration of Kimya’s high-performance filament portfolio into its established range of pellets and filaments for additive manufacturing applications.

Additive manufacturing has a distinct materials advantage when it comes to producing a component or part from either a polymer or metal printer versus traditional subtractive manufacturing techniques.