Archinaut: Difference between revisions
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{{Short description|Project developing technology to build in space}} |
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| ⚫ | '''Archinaut''' |
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{{Use American English|date=June 2021}} |
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{{Use dmy dates|date=June 2021}} |
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| ⚫ | On-Orbit Servicing, Assembly, and Manufacturing 2 ('''OSAM-2'''), formally known as '''Archinaut'''<ref name="nasa-osam2">{{Cite web|last=Harbaugh|first=Jennifer|date=2023-10-30|title=On-Orbit Servicing, Assembly, and Manufacturing 2 (OSAM-2)|url=https://www.nasa.gov/mission/on-orbit-servicing-assembly-and-manufacturing-2-osam-2/|access-date=2024-03-16|website=NASA}}</ref>''',''' was a technology demonstration project aimed at developing the necessary [[additive manufacturing]] technology to build large-scale structures in space.<ref name="project-archinaut">{{Cite web|url=http://www.projectarchinaut.com/#home|title = Archinaut}}</ref><ref name=space.com-20161028>{{cite news |url=https://www.space.com/34542-made-in-space-optical-fiber-in-orbit.html |title=California Startup Made In Space to Make Optical Fiber in Orbit |work=[[Space.com]] |first=Mike |last=Wall |date=October 28, 2016 |access-date=October 29, 2017 |quote=For example, Made In Space — along with partners Northrop Grumman and Oceaneering Space Systems — recently scored a $20 million NASA grant to build a robotic-arm-equipped 3D printer capable of building and assembling a large-scale structure in space. This project, called Archinaut, is scheduled to get an orbital trial in 2018.}}</ref> Phase 1 of the project started in 2016 and was funded by a [[NASA]] contract worth US$20 million; it was performed by a partnership between [[Made In Space, Inc.|Made In Space]] (MIS), [[Northrop Grumman]], and [[Oceaneering Space Systems]].<ref name=space.com-20161028 /> Its formal name was "Versatile In-Space Robotic Precision Manufacturing and Assembly System".<ref name=space.com-20160226>{{cite news|url=https://www.space.com/32036-nasa-made-in-space-archinaut-3d-printing.html|title=NASA, Made in Space Think Big with Archinaut, a Robotic 3D-Printing Demo|publisher=SPACE.com|first=Debra|last=Werner|date=February 26, 2016|access-date=October 29, 2017}}</ref> |
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| ⚫ | Archinaut was intended to be a [[3D printer]] capable of operating in-orbit, installed on a pod attached outside the [[International Space Station]]. Archinaut would have included a robotic arm and been capable of fabricating, assembling and repairing structures and machinery in space.<ref name=space.com-20160226/> Made In Space developed Archinaut's 3D printer; Oceaneering Space Systems was in charge of its [[manipulator arm]], and Northrop Grumman was in charge of control electronics, software, and integration with the space station.<ref name=space.com-20160226/><ref name="project-archinaut" /> |
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| ⚫ | The first structures to be built with Archinaut |
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| ⚫ | The first structures to be built with Archinaut would have been [[antenna reflector]]s for [[communication satellite]]s.<ref name=space.com-20160226/> Further expansion may have involved three robotic arms enabling Archinaut to grab decommissioned satellites and recycle their components.<ref name=space.com-20160226/> |
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| ⚫ | In June 2017, MIS conducted a month-long successful thermal vacuum chamber test at [https://www.nasa.gov/feature/engineering-evaluation-laboratory-eel NASA Ames Research |
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| ⚫ | In June 2017, MIS conducted a month-long successful thermal vacuum chamber test at [https://www.nasa.gov/feature/engineering-evaluation-laboratory-eel NASA Ames Research Center's Engineering Evaluation Laboratory (EEL)] on its Extended Structure Additive Manufacturing Machine (ESAMM) technology. During the test, MIS manufactured the first-ever extended 3D-printed objects in a space-like environment, a significant milestone on the path to manufacturing systems and satellites in space. The company quickly built on the success and, in July and August 2017, used ESAMM hardware to manufacture a beam structure measuring over 37 meters in length, setting a [http://www.guinnessworldrecords.com/ Guinness Book of World Record] for the largest 3D-printed structure.<ref>{{cite news|last1=Wall|first1=Mike|title=Made In Space Sets Guinness World Record for Longest 3D-Printed Piece|url=https://www.space.com/39790-made-in-space-3d-printing-guinness-world-records.html|publisher=SPACE.com|access-date=15 March 2018}}</ref> |
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In July 2019, MIS was awarded a NASA contract for robotic manufacturing and an assembly flight demo mission called [https://madeinspace.us/press-release-archinaut-phase-two-announcement Archinaut One]. Archinaut One which will take place in 2022 will consist of the construction of two ten meter solar arrays which will be placed on an ESPA satellite. |
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In July 2019, MIS was awarded a NASA contract for robotic manufacturing and an assembly flight demo mission called [https://madeinspace.us/press-release-archinaut-phase-two-announcement Archinaut One]. Archinaut One, which was intended to launch on a [[Falcon 9]] rocket in 2024,<ref name="nasa-osam2" /> would have included two ten meter solar arrays placed on an [[EELV Secondary Payload Adapter|ESPA]] satellite.<ref>{{cite web|url=https://madeinspace.us/wp-content/uploads/2020/10/ASCEND-2020-Archinaut-One-Status-Update.pdf|title=Archinaut One Technology Demonstration Mission Status Update|last=Gordon|first=Elon|publisher=Made In Space|date=October 2020|access-date=6 May 2021}}</ref> |
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In 2020, [[Redwire]] (which acquired MIS earlier in the year) successfully printed a {{cvt|23|ft|m}} flight-like beam in conditions similar to those expected on orbit.<ref name="nasa-osam2" /> |
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In 2022, Archinaut passed its Critical Design Review (CDR), marking the end of the design phase and the beginning of spacecraft construction.<ref name="nasa-osam2" /> |
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In 2023, NASA decided to conclude the project without proceeding to a flight demonstration. Project data will be maintained for future efforts to use.<ref name="nasa-osam2" /> |
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== References == |
== References == |
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{{Portal|Spaceflight}} |
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{{reflist}} |
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{{Reflist|30em}} |
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[[Category:International Space Station]] |
[[Category:International Space Station]] |
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[[Category:Space manufacturing]] |
[[Category:Space manufacturing]] |
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[[Category:3D printing]] |
[[Category:3D printing]] |
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[[Category:Cancelled spacecraft]] |
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{{Space-stub}} |
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Latest revision as of 04:55, 17 March 2024
On-Orbit Servicing, Assembly, and Manufacturing 2 (OSAM-2), formally known as Archinaut[1], was a technology demonstration project aimed at developing the necessary additive manufacturing technology to build large-scale structures in space.[2][3] Phase 1 of the project started in 2016 and was funded by a NASA contract worth US$20 million; it was performed by a partnership between Made In Space (MIS), Northrop Grumman, and Oceaneering Space Systems.[3] Its formal name was "Versatile In-Space Robotic Precision Manufacturing and Assembly System".[4]
Archinaut was intended to be a 3D printer capable of operating in-orbit, installed on a pod attached outside the International Space Station. Archinaut would have included a robotic arm and been capable of fabricating, assembling and repairing structures and machinery in space.[4] Made In Space developed Archinaut's 3D printer; Oceaneering Space Systems was in charge of its manipulator arm, and Northrop Grumman was in charge of control electronics, software, and integration with the space station.[4][2]
The first structures to be built with Archinaut would have been antenna reflectors for communication satellites.[4] Further expansion may have involved three robotic arms enabling Archinaut to grab decommissioned satellites and recycle their components.[4]
In June 2017, MIS conducted a month-long successful thermal vacuum chamber test at NASA Ames Research Center's Engineering Evaluation Laboratory (EEL) on its Extended Structure Additive Manufacturing Machine (ESAMM) technology. During the test, MIS manufactured the first-ever extended 3D-printed objects in a space-like environment, a significant milestone on the path to manufacturing systems and satellites in space. The company quickly built on the success and, in July and August 2017, used ESAMM hardware to manufacture a beam structure measuring over 37 meters in length, setting a Guinness Book of World Record for the largest 3D-printed structure.[5]
In July 2019, MIS was awarded a NASA contract for robotic manufacturing and an assembly flight demo mission called Archinaut One. Archinaut One, which was intended to launch on a Falcon 9 rocket in 2024,[1] would have included two ten meter solar arrays placed on an ESPA satellite.[6]
In 2020, Redwire (which acquired MIS earlier in the year) successfully printed a 23 ft (7.0 m) flight-like beam in conditions similar to those expected on orbit.[1]
In 2022, Archinaut passed its Critical Design Review (CDR), marking the end of the design phase and the beginning of spacecraft construction.[1]
In 2023, NASA decided to conclude the project without proceeding to a flight demonstration. Project data will be maintained for future efforts to use.[1]
References
[edit]
- ^ a b c d e Harbaugh, Jennifer (30 October 2023). "On-Orbit Servicing, Assembly, and Manufacturing 2 (OSAM-2)". NASA. Retrieved 16 March 2024.
- ^ a b "Archinaut".
- ^ a b Wall, Mike (28 October 2016). "California Startup Made In Space to Make Optical Fiber in Orbit". Space.com. Retrieved 29 October 2017.
For example, Made In Space — along with partners Northrop Grumman and Oceaneering Space Systems — recently scored a $20 million NASA grant to build a robotic-arm-equipped 3D printer capable of building and assembling a large-scale structure in space. This project, called Archinaut, is scheduled to get an orbital trial in 2018.
- ^ a b c d e Werner, Debra (26 February 2016). "NASA, Made in Space Think Big with Archinaut, a Robotic 3D-Printing Demo". SPACE.com. Retrieved 29 October 2017.
- ^ Wall, Mike. "Made In Space Sets Guinness World Record for Longest 3D-Printed Piece". SPACE.com. Retrieved 15 March 2018.
- ^ Gordon, Elon (October 2020). "Archinaut One Technology Demonstration Mission Status Update" (PDF). Made In Space. Retrieved 6 May 2021.