Author:
Jonckers Declan,Tauscher Oliver,Thakur Aditya R.,Maywald Lasse
Abstract
In-Space Manufacturing (ISM) is being investigated as a method for producing larger, cheaper, and more capable spacecraft and space stations. One of the most promising manufacturing techniques is additive manufacturing (AM) due to its inherent flexibility and low waste. The feasibility of a free-flying small spacecraft to manufacture large structures using a robotic arm with an AM end effector has been examined. These large structures would aid the construction of a large space station or spacecraft. Using the Experimental Lab for Proximity Operations and Space Situational Awareness (ELISSA) at the Institute of Space Systems at TU Braunschweig, a process has been designed and tested which is capable of producing structures with arbitrary length. This process was demonstrated by manufacturing support free truss elements of unlimited length using a free-floating mobile robot. Avenues for further extending the process to produce structures of any size in 3D space are discussed.
Subject
General Materials Science
Reference45 articles.
1. Experimental Characterization of the Influence of Nozzle Temperature in Fdm 3d Printed Pure Pla and Advanced Pla+;Alsoufi;Am. J. Mech. Eng.,2019
2. In-space Structural Assembly: Applications and Technology;Belvin,2016
3. Active Debris Removal for Mega Constellations: Cubesat Possible?;Ben Larbi,2017
4. Algorithm and Technology Development for Active Debris Removal at the institute of Space Systems;Ben-Larbi,2016
5. Preliminary Definition of a Standard Interconnect Benchmark for on- Orbit Servicing Demonstrator;Brinkmann,2021
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