Flex and rigid flex circuit board manufacturer, Printed Circuits has purchased and installed a new Burkle high temperature, vacuum lamination press.
The new press is heated and cooled with oil. Added to their existing line, the new press offers vacuum lamination temperatures up to 625°F.
“A number of our customers have asked us to expand our capabilities to accommodate some of the newer materials on the market,” said Matt Tannehill, executive VP. “Some of their development applications require higher operating temperatures in service than our current materials can provide, or sometimes the
materials we want to use need to be laminated at higher temperatures. Either way, we are excited to offer this new capability to our customers,” said Tannehill.
Ken Tannehill added, “We’ve had Burkle presses in production for over 30 years now. They offer state of the art lamination technology and absolute day in day out reliability and dependability, which is ideal for our operation.”
The new press has six openings, full vacuum, hot oil heating and cooling operated by the Burkle Process Technologies Control Center – computer controlled ramp up, cool down, pressure, and vacuum settings for customized lamination recipes that are ideal for today’s advanced technology applications.
To learn more about Burkle Lamination presses and systems, watch the video here:
https://youtu.be/otl_mRXcWmI
For more information on Printed Circuits services, please call or e-mail Bob Burns at (952) 886-9307 or This email address is being protected from spambots. You need JavaScript enabled to view it. and visit them on the web at www.PrintedCircuits.com.
About Printed Circuits
Printed Circuits is a US manufacturer of multilayer flex and rigid flex printed circuit boards with over 40 years of experience building circuits typically used in high reliability applications such as medical, military and commercial electronics where customers place a premium on reliability, package density, and weight.
For more information, visit us at www.printedcircuits.com.