Most medical devices with metal parts go through machining, heat treatment, electropolishing, and/or bead blasting. Even if performed correctly, each production process can leave surface deposits.

Laser machining, as one of the most significant micro/nano-manufacturing technologies, shows the capability of achieving ultimate accuracy, feature size and surface integrity at atomic scale. This has ...

Semiconductors are an integral part of the inner workings of medical devices, assisting in the conductivity between a non-conductor and a conductor to control electricity flow. In turn, the assembly ...

Additive Manufacturing (AM) is booming. According to a recent report from Persistence Market Research, the sector is currently on pace to grow by more than 22% this year and is expected to double in ...

On December 13, Bodor Laser reached a significant milestone at its DreamSpace Super Factory as its 10,000th laser cutting machine rolled off the production line in 2025.The latest machine— a flagship ...

Boise State University researchers have unveiled a cutting-edge approach to manufacturing flexible hybrid circuits—reducing costs, waste, and environmental impact. Their work leverages the properties ...

Fraunhofer Institute for Laser Technolog (ILT), Aachen, Germany, is tackling the challenge of 3D printing large components economically by using a new process called Hybrid AM that combines ...

A breakthrough development in nanofabrication could help support the development of new wireless, flexible, high-performance ...

Bodor Laser reached a major milestone at its DreamSpace Super Factory with the roll-off of its 10,000th laser cutting machine of 2025. The machine, a flagship M Series tube laser cutting system, has ...