Diamond Member SpaceMan 0 Posted June 20 Diamond Member Share Posted June 20 4 Min Read Next Generation NASA Technologies Tested in Flight This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> Erin Rezich, Ian Haskin, QuynhGiao Nguyen, Jason Hill (Zero-G staff), and George ***** experience Lunar gravity while running test operations on the UBER payload. Credits: Zero-G Teams of NASA researchers put their next-generation technologies to the microgravity test in a series of parabolic flights that aim to advance innovations supporting the agency’s space exploration goals. These parabolic flights provide a gateway to weightlessness, allowing research teams to interact with their hardware in reduced gravity conditions for intervals of approximately 22 seconds. The flights, which ran from February to April, took place aboard Zero Gravity Corporation’s G-FORCE ONE aircraft and helped to advance several promising space technologies. Under the Fundamental Regolith Properties, Handling, and Water Capture (FLEET) project, researchers tested an ultrasonic blade technology in a regolith simulant at lunar and Martian gravities. On Earth, vibratory tools reduce the forces between the tool and the soil, which also lowers the reaction forces experienced by the system. Such reductions indicate the potential for mass savings for tool systems used in space. This flight test aims to establish the magnitude of force reduction achieved by an ultrasonic tool on the Moon and Mars. Regolith interaction, including excavation, will be important to NASA’s resources to support long-duration lunar and Martian missions. This experiment represents the success of an international effort three years in the making between NASA and Concordia University in Montreal, Quebec. This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> Erin Rezich Project Principal Investigator “This experiment represents the success of an international effort three years in the making between NASA and Concordia University in Montreal, Quebec. It was a NASA bucket list item for me to conduct a parabolic flight experiment, and it was even more special to do it for my doctoral thesis work. I’m very proud of my team and everyone’s effort to make this a reality,” said Erin Rezich, project principal investigator at NASA’s Glenn Research Center in Cleveland, Ohio. The FLEET project also has a separate payload planned for a future flight test on a suborbital rocket. The Vibratory Lunar Regolith Conveyor will demonstrate a granular material (regolith) transport system to study the vertical transport of lunar regolith simulants (soil) in a vacuum under a reduced gravity environment. These two FLEET payloads increase the understanding of excavation behavior and how the excavated soil will be transported in a reduced gravity environment. This is the hidden content, please Sign In or Sign Up QuynhGiao Nguyen takes experiment notes while Pierre-Lucas Aubin-Fournier and George ***** oversee experiment operations during a soil reset ******* between parabolas.Zero-G 3D Printed Technologies Take on Microgravity Under the agency’s On-Demand Manufacturing of Electronics (ODME) project, researchers tested 3D printing technologies to ease the use of electronics and tools aboard the International Space Station. Flying its first microgravity environment test, the ODME Advanced Toolplate team evaluated a new set of substantially smaller 3D printed tools that provide more capabilities and reduce tool changeouts. The toolplate offers eight swappable toolheads so that new technologies can be integrated after it is sent up to the space station. The 3D printer component enables in-space manufacturing of electronics and sensors for structural and crew-monitoring systems and multi-material 3D printing of metals. “The development of these critical 3D printing technologies for microelectronics and semiconductors will advance the technology readiness of these processes and reduce the risk for planned future orbital demonstrations on the International Space Station. This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> curtis hill ODME Project Principal Investigator This is the hidden content, please Sign In or Sign Up Left to Right: Pengyu Zhang, Rayne Wolfe, and Jacob Kocemba (University of Wisconsin at Madison) control the Electrohydrodynamic (EHD) ink jet printer testing manufacturing processes that are relevant to semiconductors for the NASA On Demand Manufacturing of Electronics (ODME) project.Zero-G NASA researchers tested another 3D printing technology developed under the agency’s ODME project for manufacturing flexible electronics in space. The Space Enabled Advanced Devices and Semiconductors team is developing electrohydrodynamic inkjet printer technology for semiconductor device manufacturing aboard the space station. The printer will allow for printing electronics and semiconductors with a single development cartridge, which could be updated in the future for various materials systems. This is the hidden content, please Sign In or Sign Up (Left to right) Paul Deffenbaugh (Sciperio), Cadré Francis (NASA MSFC), Christopher Roberts (NASA MSFC), Connor Whitley (Sciperio), and Tanner Corby (Redwire Space Technologies) operate the On Demand Manufacturing of Electronics (ODME) Advanced Toolplate printer in zero gravity to demonstrate the potential capability of electronics manufacturing in space.Zero-G This is the hidden content, please Sign In or Sign Up The On Demand Manufacturing of Electronics (ODME) Advanced Toolplate printer mills a Fused Deposition Modeling (FDM) printed plastic substrate surface smooth in preparation for the further printing of electronic traces. Conducting this study in zero gravity allowed for analysis of Foreign Object Debris (FOD) capture created during milling.Zero-G This is the hidden content, please Sign In or Sign Up Left to Right: Rayne Wolfe and Jacob Kocemba (University of Wisconsin at Madison) control the Electrohydrodynamic (EHD) ink jet printer testing manufacturing processes that are relevant to semiconductors for the NASA On Demand Manufacturing of Electronics (ODME) project.Zero-G This is the hidden content, please Sign In or Sign Up Left to Right: Pengyu Zhang, Rayne Wolfe, and Jacob Kocemba (University of Wisconsin at Madison) control the Electrohydrodynamic (EHD) ink jet printer testing manufacturing processes that are relevant to semiconductors for the NASA On Demand Manufacturing of Electronics (ODME) project.Zero-G NASA’s This is the hidden content, please Sign In or Sign Up program supported testing This is the hidden content, please Sign In or Sign Up in a series of parabolic flights earlier this year. These technologies are managed under NASA’s Game Changing Development program within the This is the hidden content, please Sign In or Sign Up . Space Enabled Advanced Devices and Semiconductors technology collaborators included Intel Corp., Tokyo Electron America, the University of Wisconsin-Madison, Arizona State University, and Iowa State University. The Space Operations Mission Directorate’s In-Space Production Applications also supports this technology. Advanced Toolplate Technology collaborated with Redwire and Sciperio. The Ultrasonic Blade technology is a partnership with NASA’s Glenn Research Center in Cleveland, Ohio, and Concordia University in Montreal, Quebec, through an International Space Act Agreement. For more information about the Game Changing Development program, visit: This is the hidden content, please Sign In or Sign Up For more information about the Flight Opportunities program, visit: This is the hidden content, please Sign In or Sign Up Testing In-Space Manufacturing Techs and More in Flight <div class="ipsAreaBackground ipsPad_half ipsSpacer_bottom ipsType_center"> <div class='ipsSpacer_bottom ipsSpacer_half'>This is the hidden content, please</div> <ul class="ipsList_inline"> <li> <a href='https://hopzone.eu/login/' class="ipsButton ipsButton_primary ipsButton_verySmall ipsPos_right" data-ipsDialog data-ipsDialog-size='medium'>Sign In</a> </li> <li>or</li> <li> <a href='https://hopzone.eu/register/' class="ipsButton ipsButton_primary ipsButton_verySmall ipsPos_right" data-ipsDialog data-ipsDialog-size='medium'>Sign Up</a> </li> </ul> </div> logo This is the hidden content, please Sign In or Sign Up This is the hidden content, please Sign In or Sign Up Share Details Last Updated Jun 20, 2024 EditorIvry Artis Related Terms This is the hidden content, please Sign In or Sign Up This is the hidden content, please Sign In or Sign Up This is the hidden content, please Sign In or Sign Up Explore More This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> 3 min read NSTGRO 2024 Article 7 days ago This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> 3 min read NASA’s RASC-AL Competition Selects 2024 Winners Article 7 days ago This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> 4 min read California Teams Win $1.5 Million in NASA’s Break the Ice Lunar Challenge Article 7 days ago Keep Exploring Discover More Topics From NASA Game Changing Development This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> Space Technology Mission Directorate This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> STMD Flight Opportunities This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> Glenn Research Center This is the hidden content, please Sign In or Sign Up /applications/core/interface/js/spacer.png"> This is the hidden content, please Sign In or Sign Up Link to comment https://hopzone.eu/forums/topic/48930-nasa-next-generation-nasa-technologies-tested-in-flight/ Share on other sites More sharing options...
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