Sciaky, Inc., a subsidiary of Phillips Service Industries, Inc. (PSI) and leading provider of metal additive manufacturing (AM) solutions, have entered a strategic partnership with Concurrent Technologies Corporation (CTC) to support a growing demand for high quality, large-scale additively manufactured metal parts. CTC will offer Sciaky’s industry-leading Electron Beam Additive Manufacturing (EBAM) metal 3D printing technology to its diverse range of innovative manufacturing clients who are looking to save time and cost on the production of large metal parts.
“Sciaky is excited to work with CTC and help educate its clients about the real-world benefits of EBAM technology,” said Scott Phillips, President and CEO of Sciaky, Inc.
“When compared to traditional forging methods, EBAM offers significant competitive advantages for customers all over the world by drastically reducing production time, waste, and costs associated with manufacturing large, high-value metal parts.”
“We are extremely pleased to announce this newly formed strategic partnership with Sciaky,” said Edward J. Sheehan, Jr., President and CEO of CTC. “We are grateful for this opportunity to collaborate with the talented team at Sciaky. Our clients will realize numerous benefits thanks to this arrangement.”
As the most widely scalable metal additive manufacturing solution in the industry (in terms of work envelope), Sciaky’s EBAM systems can produce parts ranging from 8 inches (203 mm) to 19 feet (5.79 meters) in length. EBAM is also the fastest deposition process in the metal additive manufacturing market, with gross deposition rates ranging from seven to 25 lbs. (3.18 to 11.34 kg) of metal per hour. EBAM brings quality and control together with IRISS – the Interlayer Real-time Imaging and Sensing System, which is the only real-time adaptive control system in the metal 3D printing market that can sense and digitally self-adjust metal deposition with precision and repeatability. This innovative closed-loop control is the primary reason that Sciaky’s EBAM 3D printing process delivers consistent part geometry, mechanical properties, microstructure, and metal chemistry, from the first part to the last.