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 ...

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 ...

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 ...

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 ...

This year, we celebrate the 60th birthday of the laser. Its inventor, Theodore Maiman, once famously called it "a solution looking for problems," a judgment that has been soundly contradicted over the ...

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 ...

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 ...

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 ...