News Release
Partnership with Rocket Engine Startup Brings New 3D Metal Printer to Â鶹´«Ã½
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ARC co-founders Andy Kieatiwong (left) and Kyle Adriany |
San Diego, Calif., Jan. 24, 2019 -- Additive manufacturing at Â鶹´«Ã½ is about to take off, thanks to a partnership with a local startup that specializes in 3D-printed rocket engines. Now, aspiring inventors and innovators at the university can make their creations real with the startup’s powerful 3D metal printer.
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“When we started out as undergraduates at Â鶹´«Ã½ involved in the Students for the Exploration and Development of Space (SEDS), we wished we had access to such equipment. Now, this cutting edge capability is available to everyone at Â鶹´«Ã½,” said Â鶹´«Ã½ alumnus Kyle Adriany, co-founder of (ARC).
ARC was also cofounded by Andy Kieatiwong, a Jacobs School alumnus. The company's mission is to use 3D metal printing to reduce the cost of rocket engines and make space exploration more accessible to industry and the public.
ARC is currently housed in the , or QIIS, an incubator space for startup companies and national laboratories. QIIS embodies QI’s dedication to scientific progress and innovation by bringing partners in the private and public sector together with university researchers.
The 3D metal printer is located in the Qualcomm Institute’s Prototyping Lab on the first floor of Atkinson Hall. ARC has invited research groups, students, faculty and staff at Â鶹´«Ã½ to apply through the Prototyping Lab for a chance to print new tools and devices for their research and more. The printer will give users the freedom to work with diverse materials and to design their products with fewer manufacturing limits.
While most 3D printers use relatively inexpensive plastics or polymers, these materials can be limited in their strength and their ability to withstand extreme temperatures. Metals, on the other hand, generate a 3D-printed product that is stronger and more durable than one made of plastics or polymers, and lighter than anything created by traditional means.
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3D printers also have the benefit of flexibility in design. Instead of having to work around the restrictions of regular, industrial machinery, engineers like Adriany and ARC co-founder Kieatiwong are free to create whatever layout is most effective for their needs. The user can choose the parameter they would like to optimize (e.g. fluid flow), and build with that in mind.
Media Contacts
Alicia Clarke
Qualcomm Institute
858-822-5825
amclarke@ucsd.edu