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

ABSTRACT: Biomimetic additive manufacturing (Biomimetic 3D printing) is an emerging technology based on the principle of biological growth and forming to design the biological-like complex structure ...

Editor’s note: This is the first article in a two-part series exploring additive manufacturing. The Pentagon has poured unprecedented funds into additive manufacturing as a potential game-changer for ...

The armed services are increasingly turning to additive manufacturing – commonly known as 3D printing – to produce parts on demand, reduce costs, and boost readiness. For example, the Southeast ...

Multivariate porous materials (MTV) are like a "collection of Lego blocks," allowing for customized design at a molecular level to freely create desired structures. Using these materials enables a ...

For decades, metal additive manufacturing (AM) has promised to revolutionize aerospace by offering lighter, more complex, and faster-to-produce components. But for much of its history, AM in the space ...

A strategy of multiscale collaborative design which combines high-entropy effect, dual-phase composition, highly porous structure and foam-gelcasting-freeze drying technique leads to uniform element ...

College of Marine Life Science, Sanya Oceanographic Institute, Ocean University of China, Qingdao, Sanya 266000, China Qingdao Key Laboratory of Materials for Tissue Repair and Rehabilitation, ...

Thought LeadersProf. Bo ChenProfessor in MaterialsUniversity of Southampton Prof. Bo Chen, a Professor in Materials at the University of Southampton, UK, focuses on the structural integrity and ...

Over the past decade, additive manufacturing has emerged as a disruptive force in advanced defense manufacturing. However, skepticism about its reliability — particularly for building crucial military ...