Those of us in micro-manufacturing are working at an amazing time in history. Our tools are highly sophisticated in terms of operator interface, and specialized machines in UV laser micromachining and 3D printing are readily available for the factory floor. However, there are more complexities to successful production of products for customers than just buying the latest, greatest machine.
At Potomac, we’ve worked with just about every material there is. And glass is one of the most challenging. But over the years we’ve perfected choosing the right machine for projects like drilling holes in glass. We’ve also developed processes that eliminate damage to the substrate, give a clean edge, and have minimal taper.
So when Dr. Jay Hesselberth’s cancer research in the Biochemistry and Molecular Genetics Department at the University of Colorado School of Medicine in Denver was delayed due to glass micro-machining problems, we were able to quickly solve their problem. The glass micro-fluidic devices allowed the project to move forward quickly, propelling an innovative solution in an important health area.
As research technician Kerri York states: “We’re scientists, and our expertise is not in fabrication. So it’s much easier not to have to spend time on the machining. Prior to finding Potomac it took 6 months to get a result, and now we’re doing that same process in 1 month. Potomac’s glass micromachining was a saving grace for the project.”
The complete story is featured in the most recent Commercial MicroMachining Magazine. You can read it here:
OVERCOMING THE CHALLENGES OF MACHINING SMALL FEATURES IN GLASS