Education
U.S. Air Force – The first approved project was printed on the Stratasys F900
According to Travis’s release,” The first approved project was printed on the Stratasys F900, which can print parts with dimensions up to 36 inches x 24 inches x 36 inches made of Ultem 9085, a specialized plastic known for its extra flexibility, density, and strength. The 60th Maintenance Squadron at Travis AFB, Calif., is the Air Force’s first-ever field unit equipped with a Federal Aviation Administration- and USAF-certified 3D printer capable of producing aircraft parts. Typically, parts that don’t keep the aircraft from performing their mission don’t have as high a priority for replacement.”
According to MSgt. In the release, John Higgs, the squadron’s metals technology section chief, said, “We already have a list from the Air Force level to help them print and backfill some supplies. This will ensure other bases can replace items sooner than expected with our help.”
Travis Maintenance Squadron First to Produce Certified, 3D-Printed Parts
This entry was posted in "Additive Manufacturing Solutions for Engineering Prototyping with 3D Printing", "Artistic Expressions: 3D/4D Printing's Impact on Souvenirs and Savings", "Digital Horizons: 3D Printing Patents, AI in Science, Fans of the Day, and VR in Focus", "Evolution of Printing Technologies: Celebrating the Emergence of 3D/4D/5D Printing with Insights and Community Events", "Getting Started with Additive Manufacturing: Top Picks for Beginners in 3D and 4D Printing", "Guidelines, Regulations, and SV3DPrinter.com Policy on Additive Manufacturing.", "Optimizing Patient Treatment with Additive Manufacturing: Exploring 3D Printing in Healthcare" and tagged design, Education, International Space Station, Research, science, Stratasys, Technology, U.S. Air Force - The first approved project was printed on the Stratasys F900, USA.
3-D Printing Ice Cream(3D Printed Food recipe (Chew ))
Graduate students learned how to 3-D print ice cream in an additive manufacturing course at MIT.
According to John Hart, the Mitsui Career Development Associate Professor in Contemporary Technology and Mechanical Engineering at MIT,” says early education on 3-D printing is the key to helping the technology expand as an industry. I very much enjoyed creating and teaching the course and I’m proud of what the students did, and what it means about the future potential of additive manufacturing. The students’ final projects have included printers that they built specially to print molten glass and even soft-serve ice cream”.
http://news.mit.edu/2016/mit-course-3-d-printing-101-0511
This entry was posted in "Additive Manufacturing DIY Projects: Elevating Home & Lifestyle with 3D Printing", "Additive Manufacturing Solutions for Engineering Prototyping with 3D Printing", "Evolution of Printing Technologies: Celebrating the Emergence of 3D/4D/5D Printing with Insights and Community Events", "Guidelines, Regulations, and SV3DPrinter.com Policy on Additive Manufacturing.", "Interactive Solutions: 3D/4D Printing's Role in Enhancing Sports, Entertainment, Gaming, and Research", "Next-Gen Fashion and Construction: Advancing with Additive Manufacturing in 3D Printing" and tagged 3-D Printing Ice Cream(3D Printed Food recipe (Chew )), design, Education, Food, Fun, Health, Ideas, John Hart, MIT, Research, USA.
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