(l-r) Staff Engineer Alex Kinoian, DMG MORI Application Engineer Hannah Letang, Digital Engineering Hub Director Antonios Kontsos, Ph.D., and Mechanical Engineering Senior Sam Menaker stand in front of the lab's key piece of equipment, DMG MORI's LASERTEC 30 SLM US, an interconnected 3D metal printer that uses a high-powered laser to melt and fuse thin layers of metal powder to create a solid component.
Kontsos student Antonios Kontsos, Ph.D., Director of Rowan University's Digital Engineering Hub, and Mechanical Engineering Senior Sam Menaker work with the lab's key piece of equipment, a 3D metal printer connected to a supercomputer. The team works to integrate intelligent systems with real-world manufacturing methods.
Rowan Alex Kinoian, a Staff Engineer in Rowan University's Digital Engineering Hub, works with a metal component made by DMG MORI's LASERTEC 30 SLM US. Driven by a highly secure computer cluster, the printer uses a high-powered laser to melt and fuse thin layers of metal powder in a process that allows for the detection and correction of flaws during the production process.
The rapid development of AI and the usability of large language models have promised to transform industries on a large scale, but first engineers must figure out how to integrate intelligent systems with real-world manufacturing methods.
To accomplish that goal, Rowan University's Digital Engineering Hub (DEHub) is merging smart technology with advanced manufacturing methods through its well-equipped lab, launched fall 2025.
Housed at Henry M. Rowan College of Engineering's Rowan Hall and directed by Antonios Kontsos, Ph.D., the DEHub lab is capable of digitizing real-world objects, as well as creating new objects based on human- or machine-engineered designs.
The lab features 3D polymer and metal printers, 3D scanners for digitizing existing objects, and devices for mechanical sensing and testing. DEHub's key piece of equipment is DMG MORI's LASERTEC 30 SLM US, the first metal additive manufacturing equipment of its kind.
Designed and assembled in the United States, the 3D metal printer uses a high-powered laser to melt and fuse thin layers of metal powder to create a solid component. The machine's distinguishing features include its adaptive beam control, improved production process, and interconnectivity, allowing the detection-and correction-of flaws in real time during the construction process.
The lab's processing power is fueled by a highly secure computer cluster named Pythia, after the Oracle of Delphi in ancient Greece. Purpose-built to drive the lab's systems, Pythia can receive and process terabytes of information instantly.
"We are the first academic research group in the world to connect a supercomputer for this type of machine," said Kontsos, the Henry M. Rowan Foundation Endowed Professor in the Department of Mechanical Engineering. "The data we are collecting-such as part temperature and laser information-is in the order of terabytes, so we need the computational power coupled with live-streaming capabilities to synchronously store and process this information."
Focused first on federally funded research for the Defense Advanced Research Projects Agency, DEHub aims to work across a wide range of manufacturing sectors, including the defense, manufacturing, pharmaceutical, biotechnology, energy, and civil infrastructure as well as robotics industries.
Interest is already high. DEHub's recent launch event attracted representatives from companies as far away as California, Texas, and even Australia.
"Our horizon is not to improve the Glassboro economy only," Kontsos said, "We want to improve it by being a resource worldwide."
For more information contact:
Rowan University
201 Mullica Hill Road
Glassboro, NJ 08028
856-256-4000
engineering.rowan.edu
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2400 Huntington Blvd.
Hoffman Estates, IL 60192
847-593-5400
Service Hotline:
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