- Our Company
- OXFAB® Technology
- OsteoFab® Technology
- OsteoFab® Medical Devices
- Contract Manufacturing
- News & Events
OPM in the News
September 5th, 2017
Orthopedic implant infections have been steadily increasing while, at the same time, antibiotics developed to kill such bacteria have proven less and less effective with every passing day. It is clear that new approaches that do not rely on the use of antibiotics are needed to decrease medical device infections.
August 30th, 2017
Back in 2013, Oxford Performance Materials’ biomedical division got FDA clearance for the first 3D polymeric implant for cranial reconstruction. A year later it won clearance for its 3D printed facial device.
July 27th, 2017
Scott DeFelice, chief executive officer of Oxford Performance Materials, said the company is benefiting from the growth in defense spending. The South Windsor aerospace manufacturer is a supplier for other manufacturing firms.
The company is “really feeling an immediate impact” of rising defense spending, particularly from a recent $45 billion supplemental defense budget, he said. Work has focused on military satellites, classified work and retrofitting and updating military aircraft, DeFelice said.
June 2nd, 2017
The global market for additive manufacturing technologies is set to double in 2012-17. While much of this expansion will be in product design and prototyping, a growing niche of custom-made, one-of-a-kind implantable devices are being made from computer aided design (CAD) files drawn up using a patient's actual anatomical dimensions. The attraction of these is that fit can be improved substantially, compared with more traditional generically-sized products. A leading light is USA-based Oxford Performance Materials, co-founded by Scott DeFelice.
April 28th, 2017
According to market research firm Markets and Markets, the 3D printing materials industry will be worth $1.4 billion by 2021. In many ways, additive manufacturing (AM) is coming into its own in the industrial space and the key to unlocking its potential are the materials that it uses.
When it comes to mechanical properties, performance under high temperatures, and chemical resistance, there’s one family of polymers that rules them all: polyetherketone. One company in particular, Oxford Performance Materials (OPM), has built itself up on a foundation of polyetherketoneketone (PEKK) with its own PEKK material, dubbed OXPEKK.
March 1st, 2017
Aerospace manufacturers have long used polymer 3D Printed for rapid prototypes or lowstrength production parts such as ducting, but the need for load-bearing structural components has pushed the industry to qualify metal additive manufacturing processes using highstrength alloys.
August 2nd, 2016
Next month, the co-located MD&M and PLASTEC Minneapolis trade show and conference will include a special focus on 3D printing for the creation of medical devices. At the conference, Derek Mathers, Director of R&D at Worrell Inc., a Minneapolis-based design firm, is part of a panel that has been convened to answer the question: “Can we really use 3D printing to make medical devices?”
July 12th, 2016
If Alcoa was known for providing aluminum, then soon-to-be Arconic—its coming spinoff serving aerospace manufacturing and other industries—wants to be known for something else: problem-solving via additive manufacturing (AM). Hexcel Corp., the leading aerospace composite materials provider, may be seeking a similar reputation, if another recent announcement is any indication.…