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Meeting

2025 AWS Professional Program

Symposium

2025 AWS Professional Program

Presentation Title

Laser Beam Welding in Thermal Vacuum and in Microgravity to Mature In-Space Welding

Author(s)

Andrew O'Connor, Jonathan M Bonebrake, Thomas C Bryan, Charles T Cowen, Bill Doggett, William C Evans, Micha Hardyman, Aliya H Hutley, John C Ivester, Emma K Jaynes, Louise S Littles, Matthew K Mahlin, Christopher S Protz, Benjamin L Rupp, Derrick C Seubert, Parker D Shake, Jeffrey W Sowards, Alex Sowell, Raju Subedi, Brace W White, Jennifer Jones

On-Site Speaker (Planned)

Andrew O'Connor

Abstract Scope

The broadening of the in-space economy and expansion of space exploration activities necessitates a suitable joining method for in-space manufacturing and repair of metallic structures. However, the influence of extreme temperatures, reduced pressure, and reduced gravity on in-space welding is not yet fully elucidated. Two primary efforts led by NASA Marshall Space Flight Center are investigating laser beam welding (LBW) as a joining and repair method in both thermal vacuum and combined vacuum & reduced gravity environments. The first is a NASA Early Career Initiative project – Lunar Assembly and Servicing by Autonomous Robotics (LASAR). This project has partnered with Laserline, Inc. to demonstrated ruggedized LBW optics and delivery fiber in a thermal vacuum environment. Additional work is progressing on weld inspection via a non-contact nondestructive evaluation (NDE) technique – electromagnetic acoustic transduction (EMAT). NASA Johnson Space Center is partnered with both Motiv Space Systems, Inc. and PickNik, Inc. to advance supervised autonomy of a ruggedized robotic manipulator. NASA Langley Research Center is modifying their unique snowflake joint geometry for Lunar infrastructure to make it suitable for welding. The second effort is the DISCMAN -- DIsk-Shaped Configurable and Modular vAcuum uNit – which is developing experimental hardware capable of supporting in-space manufacturing and other technology development efforts and is adaptable to multiple flight platforms. The first technology will be LBW, and the first flight platform is anticipated to be a parabolic aircraft. The DISCMAN is intended to mature into process development of LBW on orbital or suborbital platforms; such platforms allow access to longer duration, higher quality low gravity environments. Thus, LASAR investigates temperature and vacuum on LBW while DISCMAN investigates vacuum and gravity on LBW.

Proceedings Inclusion?

Undecided

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