Highlighting recent advancements in ceramic AM that are coming out of academic labs and are influencing the future of the segment.

Graphene, an allotrope of carbon, has a layered structure of carbon rings formed in a hexagonal lattice structure. This arrangement of carbon in two-dimension gives properties such as high thermal ...

This review proposes to achieve the targeted development and fabrication of high-performance high-temperature electromagnetic shielding ceramics through microstructural engineering, additive ...

The study, led by UC San Diego nanoengineering professor Kenneth Vecchio, centers on a class of ceramics known as high-entropy carbides. These materials have highly disordered atomic structures, ...

Ceramics are defined as inorganic, non-metallic, polycrystalline carbide, nitride, or oxide materials. Some of their examples are Tungsten carbide, Silicon carbide, Zinc oxide, Titanium carbide, ...

TRUNNANO, a leading global company in advanced ceramic materials, today announced a major breakthrough in high-temperature ...

This review paper published in AI & Materials explores the implementation of first-principles calculation method within high-entropy carbides ceramics (HECCs) research, specifically examining its role ...

Explore how ceramic membranes are transforming industrial filtration, delivering superior efficiency, durability, chemical ...

New perovskite-related material could find applications in sensors, wearables, and printed electronics ...

The history of synthetic glass-ceramic materials goes back to 1953. Initially, metals were the materials that were being researched for utilization as dental replacements and orthopedic implants.