SPEE3D to Manufacture Metal Parts for the Defense, Industrial, and Space Industries Onsite at RAPID + TCT Conference
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Monday, May 1, 2023
Machine Tools, Metalworking & Metallurgy, Education, Engineering, Aerospace, Manufacturing, University, Pennsylvania State University, Workforce, Science, North Melbourne Grand Final Breakfast, Metal, Partnership, Cold spray additive manufacturing, Atmosphere, McCormick Place, Aluminium, Principal investigator, RAPID, AC, Advanced manufacturing, CSAM, Government, UCI, United States Army, Charles Darwin University, COMET, UC, AFOSR, University of California, Irvine, Air force, Entrepreneurship, Copper, AM, ACRC, United States Army Medical Research and Development Command, Air pollution, Scientific method, Conference, New Jersey Institute of Technology, Management, 3D printing, Education minister, Northeastern University
The company will manufacture parts onsite for various uses and industries, showcasing its patented cold spray additive manufacturing (CSAM) technology that enables on-demand production of critical parts in minutes and hours versus days.
Key Points:
- The company will manufacture parts onsite for various uses and industries, showcasing its patented cold spray additive manufacturing (CSAM) technology that enables on-demand production of critical parts in minutes and hours versus days.
- ; printed in 18 minutes
Rocket Nozzle Liner: A scaled-down example of a rocket nozzle used in the Space industry; 4.5 lbs. - ; printed in 32 minutes
SPEE3D will have various other parts on display in the booth made of aluminum, aluminum bronze, and copper. - SPEE3D’s printers use Diversitech dust collectors to ensure that the air exiting SPEE3D systems is clean of any pollutants.