Additive manufacturing has been increasingly applied in developing heterostructure for biomedical applications, including bioscaffold, biosensor, vasculature, biodetection, bioimaging, biotherapy, ...

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 ...

Ahead of RAPID + TCT 2026, Maggie Lashutka explains how Ricoh uses 3D printing to create patient-specific brain models for ...

Ultrasonic Additive Manufacturing (UAM) is an innovative, solid‐state process that employs high-frequency mechanical vibrations to bond layers of metal tapes or foils. Distinguished from traditional ...

With the rapid development of material science and manufacturing science, a large number of complex structures have been designed, manufactured and applied in the industrial field. Most of the current ...

Additive manufacturing in large-scale manufacturing industries is experiencing tremendous growth. Its value is evident in the industry's annual growth rate of 19.5% in 2021, an increase from the 7.5% ...

Nanotechnology, like 3D printing, has been the focus of extensive research and development over recent years. Both are in the process of revolutionizing broad and varied sectors and, in some cases, ...

Let’s look at the future of additive manufacturing (AM). The technology was once confined to prototyping. In recent years, AM has become an accepted form of manufacturing. While it won’t replace ...

Ceramic materials suitable for additive manufacturing (AM) methods often lack essential material properties such as density or mechanical strength, which hinders the wider industrial application of 3D ...

With the rapid development of material science and manufacturing science, a large number of complex structures have been designed, manufactured and applied in the industrial field. Most of the current ...